Calculators Created by Kethavath Srinath

Osmania University (OU), Hyderabad
979
Formulas Created
1604
Formulas Verified
354
Across Categories

List of Calculators by Kethavath Srinath

Following is a combined list of all the calculators that have been created and verified by Kethavath Srinath. Kethavath Srinath has created 979 and verified 1604 calculators across 354 different categories till date.
Verified Length over which Deformation Takes Place given Strain Energy in Shear
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Verified Shear Area given Strain Energy in Shear
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Verified Shear Modulus of Elasticity given Strain Energy in Shear
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Verified Strain Energy in Shear given Shear Deformation
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15 More Strain Energy in Structural Members Calculators
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Verified Admittance using A Parameter (Nominal T-method)
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Verified Admittance using B Parameter (Nominal T-method)
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Verified Admittance using D Parameter (Nominal T-method)
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Verified B Parameter (Nominal T-method)
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Verified B Parameter for Reciprocal Network (Nominal T-method)
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Verified D Parameter for Reciprocal Network (Nominal T-method)
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6 More ABCD Parameter Calculators
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Verified A Parameter For Reciprocal Network (Nominal pi-method)
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Verified Admittance using A Parameter (Nominal pi-method)
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Verified Admittance using D Parameter (Nominal pi-method)
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Verified B Parameter for Reciprocal Network (Nominal pi-method)
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Verified C Parameter (Nominal pi-method)
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Verified D Parameter for Reciprocal Network (Nominal pi-method)
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Verified Impedance using A Parameter (Nominal pi-method)
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Verified Impedance using C Parameter (Nominal pi-method)
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Verified Impedance using D Parameter (Nominal pi-method)
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3 More ABCD Parameter Calculators
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Created Coefficient of Friction of Power Screw given Effort in Lowering Load with Acme Threaded Screw
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Created Coefficient of Friction of Power Screw given Effort in Moving Load with Acme Threaded Screw
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Created Coefficient of Friction of Power Screw given Torque Required in Lifting Load with Acme Thread
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Created Coefficient of Friction of Power Screw given Torque Required in Lowering Load with Acme Thread
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Created Efficiency of Acme Threaded Power Screw
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Created Effort Required in Lifting Load with Acme Threaded Screw
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Created Effort Required in Lowering Load with Acme Threaded Screw
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Created Helix Angle of Power Screw given Effort Required in Lifting Load with Acme Threaded Screw
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Created Helix Angle of Power Screw given Load and Coefficient of Friction
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Created Helix Angle of Power Screw given Torque Required in Lifting Load with Acme Threaded Screw
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Created Helix Angle of Power Screw given Torque Required in Lowering Load with Acme Threaded Screw
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Created Load on Power Screw given Effort Required in Lifting Load with Acme Threaded Screw
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Created Load on Power Screw given Effort Required in Lowering Load with Acme Threaded Screw
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Created Load on Power Screw given Torque Required in Lifting Load with Acme Threaded Screw
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Created Load on Power Screw given Torque Required in Lowering Load with Acme Threaded Screw
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Created Mean Diameter of Power Screw given Torque Required in Lowering Load with Acme Threaded Screw
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Created Torque Required in Lifting Load with Acme Threaded Power Screw
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Created Torque Required in Lowering Load with Acme Threaded Power Screw
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Verified Local Sonic or Acoustic velocity at Ambient air conditions
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2 More Air Refrigeration Systems Calculators
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Verified Radius of Gyration of Column given Allowable Compressive Stress for Aluminium Columns
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Verified Transition from Long to Short Column Range
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3 More Allowable Design Loads for Aluminium Columns Calculators
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Verified Allowable Load for Drop Hammer Driven Piles
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5 More Allowable Load on Piles Calculators
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Created Allowable Bearing Pressure given Area of Lowest Column of Structure
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Created Allowable Bearing Pressure when Full Area of Support is Occupied by Base Plate
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Created Area of foundation of Lowest Column of Structure
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Created Base Plate Thickness
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Created Equivalent Cantilever Dimension
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Created Load using Area of Lowest Column of Structure
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Verified Disc's Angular velocity given Circumferential stress and Outer radius
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8 More Angular Velocity Of Disc Calculators
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Created Bending Moment on Arm of Belt Driven Pulley
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Created Bending Moment on Arm of Belt Driven Pulley given Bending Stress in Arm
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Created Bending Moment on Arm of Belt Driven Pulley given Torque Transmitted by Pulley
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Created Bending Stress in Arm of Belt Driven Pulley
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Created Bending Stress in Arm of Belt Driven Pulley given Torque Transmitted by Pulley
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Created Major Axis of Elliptical Cross-Section of Pulley's Arm given Moment of Inertia of Arm
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Created Minor Axis of Elliptical Cross-Section of Arm given Moment of Inertia of Arm
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Created Minor Axis of Elliptical Cross-Section of Pulley's Arm given Bending Stress in Arm
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Created Minor Axis of Elliptical Cross-Section of Pulley's Arm given Moment of Inertia of Arm
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Created Minor Axis of Elliptical Cross-Section of Pulley's Arm given Torque and Bending Stress
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Created Moment of Inertia of Pulley's Arm
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Created Moment of Inertia of Pulley's Arm given Bending Stress in Arm
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Created Moment of Inertia of Pulley's Arm given Minor Axis of Elliptical Section Arm
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Created Number of Arms of Pulley given Bending Moment on Arm
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Created Number of Arms of Pulley given Bending Stress in Arm
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Created Number of Arms of Pulley given Torque Transmitted by Pulley
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Created Radius of Rim of Pulley given Bending Moment Acting on Arm
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Created Radius of Rim of Pulley given Torque Transmitted by Pulley
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Created Tangential Force at End of Each Arm of Pulley given Bending Moment on Arm
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Created Tangential Force at End of Each Arm of Pulley given Torque Transmitted by Pulley
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Created Torque Transmitted by Pulley
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Created Torque Transmitted by Pulley given Bending Moment on Arm
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Created Torque Transmitted by Pulley given Bending Stress in Arm
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Created Diameter of Shaft given Principle Shear Stress
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Created Equivalent Bending Moment when Shaft is Subjected to Fluctuating Loads
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Created Equivalent Torsional Moment when Shaft is Subjected to Fluctuating Loads
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Created Principle Shear Stress- maximum shear stress theory of failure
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Verified Allowable Load using Safety Factors
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Verified Pile Capacity
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3 More Axial Load Capacity of Single Piles Calculators
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Verified Allowable Compression Stress when Slenderness Ratio is Greater than Cc
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Verified Allowable Compression Stress when Slenderness Ratio is less than Cc
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Verified LRFD Design Strength of Member
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2 More Axially Loaded Steel Columns Design Calculators
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Created Angle of Wrap given Tension on Loose Side of Band
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Created Coefficient of Friction between Friction Lining and Brake Drum
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Created Radius of Brake Drum given Torque Absorbed by Brake
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Created Tension of Tight Side of Band
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Created Tension on Loose Side of Band
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Created Tension on Loose Side of Band given Torque Absorbed by Brake
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Created Tension on Tight Side of Band given Torque Absorbed by Brake
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Created Torque Absorbed by Brake
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Verified Small Signal Input Resistance given Common Base Current Gain
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13 More Basic Configurations Calculators
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Created Angular Velocity of Gear given Speed Ratio
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Created Angular Velocity of Pinion given Speed Ratio
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Created Axial Pitch of Helical Gear given helix angle
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Created Center to Center distance between two Gears
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Created Normal Circular Pitch of Helical Gear
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Created Normal Circular Pitch of Helical Gear given Virtual Number of Teeth
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Created Normal Pressure Angle of Helical Gear given Helix Angle
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Created Pitch of Helical Gear given Axial Pitch
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Created Pitch of Helical Gear given Normal Circular Pitch
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Created Semi Major Axis of elliptical profile given Radius of curvature at point
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Created Semi Minor Axis of elliptical profile given Radius of curvature at point
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Created Speed Ratio for Helical Gears
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Created Transverse Diametrical Pitch of Helical Gear given Transverse Module
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Created Transverse Module of Helical Gear given Normal Module
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Created Transverse Module of Helical Gear given Transverse Diametrical Pitch
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Created Transverse Pressure Angle of Helical Gear given Helix Angle
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Basics (1)
Verified Equipment Total Cooling Load
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11 More Basics Calculators
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Verified Armature Resistance of Series DC Generator using Voltage
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Verified Series Field Resistance of Series DC Generator using Terminal Voltage
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Verified Torque in Series DC Generator using output power
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Verified Torque of Series DC Generator given Angular Speed and Armature Current
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Verified Torque of Series DC Generator given Input Power
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Verified Torque of Series DC Generator given Kf
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4 More Basics of DC Generator Calculators
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Verified Magnetic flux of Series DC Generator given Torque
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Verified Magnetic flux of Series DC Generator using Kf
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6 More Basics of DC Machines Calculators
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Verified Angular Speed given Electrical Efficiency of DC Motor
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Verified Armature Current given Electrical Efficiency of DC Motor
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Verified Armature Resistance given Overall Efficiency of DC Motor
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Verified Armature Torque given Electrical Efficiency of DC Motor
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Verified Armature Torque given Mechanical Efficiency of DC Motor
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Verified Current given Overall Efficiency of DC Motor
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Verified Electrical Efficiency of DC Motor
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Verified Mechanical Efficiency of DC Motor
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Verified Overall Efficiency of DC Motor
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Verified Shunt Field Current given Overall Efficiency of DC Motor
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Verified Torque given Mechanical Efficiency of DC Motor
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Verified Voltage given Electrical Efficiency of DC Motor
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Verified Voltage given Overall Efficiency of DC Motor
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8 More Basics of DC Motor Calculators
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Verified Armature Resistance of Synchronous Motor given 3-phase Mechanical Power
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Verified Armature Resistance of Synchronous Motor given Input Power
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Verified Armature Resistance of Synchronous Motor given Mechanical Power
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Verified Ka of Synchronous Motor given Back Emf
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Verified Magnetic Flux of Synchronous Motor given Back EMF
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Verified Phase Angle between Voltage and Armature Current given 3-phase Input Power
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Verified Phase Angle between Voltage and Armature Current given 3-phase Mechanical Power
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Verified Phase Angle between Voltage and Armature Current given Input Power
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Verified Synchronous Speed of Synchronous Motor given ka
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Verified Synchronous Speed of Synchronous Motor given Mechanical Power
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Beams (3)
Verified Horizontal Shearing Stress in Rectangular Timber Beam given Notch in Lower Face
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Verified Modified Total End Shear for Concentrated Loads
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Verified Modified Total End Shear for Uniform Loading
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10 More Beams Calculators
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Verified COP of Bell-Coleman Cycle for given temperatures, polytropic index and adiabatic index
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4 More Bell-Coleman Cycle or Reversed Brayton or Joule Cycle Calculators
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Created Bending Moment due to Force
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Created Bending Moment due to Force given Angle of Rotation of Arbor with Respect to Drum
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Created Bending Moment due to Force given Deflection of one End of Spring
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Created Bending Moment given Strain Energy Stored in Spring
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Created Actual Coefficient of Friction given Equivalent Coefficient of Friction
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Created Equivalent Coefficient of Friction in Block Brake with Long Shoe
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Created Braking Torque when Brakes are Applied
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Created Coefficient of Friction given Braking Torque
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Created Length of Block given Normal Reaction
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Created Normal Reaction Force
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Created Normal Reaction Force given Braking Torque
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Created Permissible Pressure between Block and Brake Drum given Normal Reaction
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Created Radius of Drum Brake given Braking Torque
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Created Width of Block given Normal Reaction Force
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Created Core Diameter of Bolt given Maximum Tensile Stress in Bolt
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Created Core Diameter of Bolt given Shear Area of Nut
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Created Core Diameter of Bolt given Tensile Force on Bolt in Shear
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Created Core Diameter of Bolt given Tensile Force on Bolt in Tension
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Created Diameter of Hole inside Bolt
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Created Factor of Safety given Tensile Force on Bolt in Tension
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Created Height of Nut given Shear Area of Nut
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Created Height of Nut given Strength of Bolt in Shear
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Created Height of Standard Nut
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Created Maximum Tensile Stress in Bolt
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Created Nominal Diameter of Bolt given Diameter of Hole inside Bolt
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Created Nominal Diameter of Bolt given Height of Standard Nut
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Created Shear Area of Nut
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Created Tensile Force on Bolt given Maximum Tensile Stress in Bolt
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Created Tensile Force on Bolt in Shear
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Created Tensile Force on Bolt in Tension
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Created Yield Strength of Bolt in Shear given Tensile Force on Bolt in Shear
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Created Yield Strength of Bolt in Tension given Tensile Force on Bolt in Shear
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Created Yield Strength of Bolt in Tension given Tensile Force on Bolt in Tension
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Verified Average Tensile Stress in Butt Weld
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Verified Efficiency of Butt Welded Joint
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Verified Length of Butt Weld given Average Tensile Stress in Weld
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Verified Length of Butt Weld given Efficiency of Welded Joint
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Verified Permissible Tensile Stress in Butt Weld
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Verified Permissible Tensile Stress in Butt Weld given Efficiency of Welded joint
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Verified Tensile Force on Butt Welded Plates given Thickness of Plate
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Verified Tensile Force on Plates given Average Tensile Stress in Butt Weld
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Verified Tensile Force on Plates given Efficiency of Butt Welded Joint
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Verified Thickness of Plate given Efficiency of Butt Welded Joint
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Verified Throat of Butt Weld given Average Tensile Stress
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1 More Butt Welds Calculators
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Verified Deflection for Channel or Z Bar when Load in Middle
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Verified Deflection for Channel or Z Bar when Load is Distributed
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Verified Deflection for Deck Beam given Load in Middle
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Verified Deflection for Hollow Cylinder when Load in Middle
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Verified Deflection for Hollow Cylinder when Load is Distributed
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Verified Deflection for Hollow Rectangle when Load is Distributed
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Verified Deflection for Solid Cylinder when Load in Middle
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Verified Deflection for Solid Cylinder when Load is Distributed
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8 More Calculation of Deflection Calculators
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Created Cross-sectional Area of Rod given Strain Energy stored in Rod
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Created Force Applied on Rod given Strain Energy Stored in Tension Rod
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Created Length of Rod given Strain Energy Stored
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Created Length of Shaft given Strain Energy Stored in Shaft Subjected to Bending Moment
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Created Length of Shaft when Strain Energy in Shaft Subjected to External Torque
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Created Modulus of Elasticity given Strain Energy Stored in Shaft Subjected to Bending Moment
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Created Modulus of Elasticity of Rod given Strain Energy Stored
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Created Modulus of Rigidity of Rod given Strain Energy in Rod
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Created Moment of Inertia of Shaft when Strain Energy Stored in Shaft Subjected to Bending Moment
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Created Polar Moment of Inertia of Rod given Strain Energy in Rod
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Created Strain Energy in Rod when it is Subjected to External Torque
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Created Strain Energy Stored in Rod Subjected to Bending Moment
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Created Strain Energy Stored in Tension Rod
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Created Torque given Strain Energy in Rod Subjected to External Torque
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Created Distance from Neutral Axis to Compressive Reinforcing Steel
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Created Distance from Neutral Axis to Face of Concrete
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Created Distance from Neutral Axis to Tensile Reinforcing Steel
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Created Moment of Inertia given Unit Stress in Compressive Reinforcing Steel
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Created Moment of Inertia given Unit Stress in Extreme Fiber of Concrete
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Created Moment of Inertia given Unit Stress in Tensile Reinforcing Steel
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Created Moment of Inertia of Transformed Beam Section
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Created Total Bending Moment given Unit Stress in Compressive Reinforcing Steel
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Created Total Bending Moment given Unit Stress in Extreme Fiber of Concrete
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Created Total Bending Moment given Unit Stress in Tensile Reinforcing Steel
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Created Unit Stress in Compressive Reinforcing Steel
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Created Unit Stress in Extreme Fiber of Concrete
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Created Unit Stress in Tensile Reinforcing Steel
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Chip (5)
Verified Cross Sectional Area of Uncut chip using Specific Cutting energy in Machining
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Verified Length of Chip using Thickness of Chip
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Verified Length of Shear Plane of Chip
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Verified Mass of Chip given Thickness of Chip
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Verified Width of Chip given Thickness of Chip
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4 More Chip Calculators
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Verified Chip Thickness
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Verified Chip Thickness given Cutting Ratio
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Verified Undeformed Chip Thickness using Cutting Ratio
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Verified Undeformed Chip Thickness using Length of Shear Plane of Chip
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Verified Maximum Chip Thickness in Vertical Milling
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Verified Maximum Chip Thickness obtained in Slab Milling using Depth of Cut
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Verified Maximum Chip Thickness obtained in Slab Milling using Tool Engagement Angle
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Created Isothermal Work Done by Gas
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5 More Closed System Work Calculators
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Verified Coefficient of Friction at Collar of Screw according to Uniform Pressure Theory
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Verified Coefficient of Friction at Collar of Screw according to Uniform Wear Theory
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Verified Collar Friction Torque for Screw according to Uniform Wear Theory
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Verified Load on Screw given Collar Friction Torque according to Uniform Pressure Theory
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Verified Load on Screw given Collar Friction Torque according to Uniform Wear Theory
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1 More Collar Friction Calculators
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Verified Nominal Bearing Strength of Concrete
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Verified Projection of Base Plate beyond Flange and Parallel to Web
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Verified Specified Compressive Strength of Concrete using Nominal Bearing Strength
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8 More Column Base Plate Design Calculators
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Verified Allowable Unit Stress on Timber Columns for Single Member
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Verified Allowable Unit Stress on Timber Columns of Circular Cross Section
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Verified Allowable Unit Stress on Timber Columns of Square or Rectangular Cross Section
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Verified Elasticity Modulus given Allowable Unit Stress of Square or Rectangular Timber Columns
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Verified Elasticity Modulus given Allowable Unit Stress on Timber Columns for Single Member
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Verified Elasticity Modulus using Allowable Unit Stress of Circular Timber Columns
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1 More Columns Calculators
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Verified Critical Slenderness Ratio for Aluminium Columns
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Verified Critical Slenderness Ratio for Cast Iron Columns
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Verified Ultimate Load per Area for Aluminium Columns
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Verified Ultimate Load per Area for Aluminium Columns given Allowable Load and Section Area
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Verified Ultimate Load per Area for Cast Iron Columns
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Verified Modulus of elasticity given deflection at free end of column with eccentric load
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Verified Moment of inertia given deflection at free end of column with eccentric load
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20 More Columns With Eccentric Load Calculators
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Created Axial Load given Maximum Stress for Short Beams
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Created Cross-Sectional Area given Maximum Stress for Short Beams
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Created Deflection for Axial Compression and Bending
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Created Deflection for Transverse Loading given Deflection for Axial Bending
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Created Maximum Bending Moment given Maximum Stress for Short Beams
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Created Maximum Stress for Short Beams
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Created Maximum Stress in Short Beams for Large Deflection
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Created Neutral Axis Moment of Inertia given Maximum Stress for Short Beams
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Created Neutral Axis to Outermost Fiber Distance given Maximum Stress for Short Beams
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12 More Combined Axial and Bending Loads Calculators
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Created Design Strength of Axially Loaded Composite Column
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Verified Design Strength of Concrete for Direct Bearing
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Created Gross Area of Steel Core given Design Strength of Axially Loaded Composite Column
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1 More Composite Columns Calculators
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Created Axial Force transmitted by Outer Spring
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Created Cross-Sectional Area of Inner Spring given Axial force transmitted
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Created Cross-sectional Area of Inner Spring Wire
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Created Cross-sectional Area of Outer Spring given Axial force transmitted
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Created Cross-sectional Area of Outer Spring Wire
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Created Radial Clearance between Concentric Springs
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Created Wire Diameter of Inner Spring given Axial Force transmitted by Outer Spring
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Created Wire Diameter of Inner Spring given Radial Clearance between Springs
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Created Wire Diameter of Outer Spring given Axial Force transmitted by Outer Spring
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Created Wire Diameter of Outer Spring given Radial Clearance between Springs
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1 More Concentric Springs Calculators
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Created Absolute Value of Maximum Moment in Unbraced Beam Segment
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Verified Condition for Maximum Moment in Interior Spans of Beams with Plastic Hinge
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Verified Ultimate Load for Continuous Beam
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1 More Continuous Beams Calculators
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Verified Air infiltration rate into room (CFM)
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Verified Cooling load Heat Gain through windows
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Verified Duct Heat Gain
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Verified Total Cooling Load due to Equipment
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Verified Total heat removed from ventilation air
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6 More Cooling Loads Calculators
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Created Core Diameter of Bolt given Diameter of Hole Inside Bolt
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4 More Core Diameter Calculators
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Created Belt Length for Cross Belt Drive
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Created Center Distance given Wrap Angle for Small Pulley of Cross Belt Drive
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Created Diameter of Big Pulley given Wrap Angle for Small Pulley of Cross Belt Drive
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Created Diameter of Small Pulley given Wrap Angle for Small Pulley of Cross Belt Drive
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Created Wrap Angle for Small Pulley of Cross Belt Drive
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Verified Armature Current of Shunt DC Motor given Input Power
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Verified Armature Current of Shunt DC Motor given Torque
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Verified Armature Current of Shunt DC Motor given Voltage
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Verified Shunt Field Current of Shunt DC Motor
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2 More Current Calculators
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Verified Receiving End Current using Impedance (STL)
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Verified Receiving End Current using Sending End Angle (STL)
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Verified Receiving End Current using Transmission Efficiency (STL)
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Verified Sending End Current using Losses (STL)
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Verified Sending End Current using Sending End Power (STL)
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Verified Sending End Current using Transmission Efficiency (STL)
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2 More Current Calculators
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Verified Armature Current of Series DC Motor given Input Power
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Verified Armature Current of Series DC Motor given Kf
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Verified Armature Current of Series DC Motor given Speed
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Verified Armature Current of Series DC Motor given Torque
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Verified Armature Current of Series DC Motor using Voltage
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Verified Armature Current of Synchronous Motor given 3-phase Mechanical Power
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Verified Armature Current of Synchronous Motor given Input Power
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Verified Armature Current of Synchronous Motor given Mechanical Power
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Verified Load Current of Synchronous Motor given 3-phase Mechanical Power
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Verified Load Current of Synchronous Motor using 3-phase Input Power
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Verified Armature Current in Series DC Generator using output power
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Verified Armature Current of Series DC Generator given Converted Power
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Verified Armature Current of Series DC Generator given Kf
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Verified Armature Current of Series DC Generator given Torque
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Verified Armature Current of Series DC Generator using Terminal Voltage
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3 More Current Calculators
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Verified C-phase Current using Fault Impedance (LLF)
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Verified Negative Sequence Current(LLF)
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4 More Current Calculators
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Verified Negative Sequence Current using Negative Sequence Voltage (LLGF)
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9 More Current Calculators
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Verified Load Current using Area of X-section(1-Phase 3-Wire OS)
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Verified Load Current using Line Losses (1-Phase 3-Wire OS)
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Verified Maximum Voltage using Area of X-section(1-phase 3-wire OS)
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Verified Maximum Voltage using Line Losses (1-Phase 3-Wire OS)
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Verified Maximum Voltage using Load Current (1-Phase 3-Wire OS)
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Verified Maximum Voltage using Volume of Conductor Material (1-phase 3-wire OS)
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Verified Maximum Voltage(1-Phase 3-Wire OS)
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Verified RMS Voltage using Area of X-Section(1-Phase 3-Wire OS)
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Verified RMS Voltage using Line Losses (1-Phase 3-Wire OS)
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Verified RMS Voltage using Load Current (1-Phase 3-Wire OS)
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1 More Current & Voltage Calculators
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Verified Load Current using Area of X-Section(single Phase two Wire OS)
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Verified Load Current using Line Losses (single Phase two Wire OS)
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Verified Maximum Voltage using Area of X-section(single phase two wire OS)
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Verified Maximum Voltage using Line Losses (single Phase two Wire OS)
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Verified Maximum Voltage using Load Current (single Phase two Wire OS)
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Verified RMS Voltage using Area of X-Section(single Phase two Wire OS)
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Verified RMS Voltage using Line Losses (single Phase two Wire OS)
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Verified RMS Voltage using Load Current (single Phase two Wire OS)
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1 More Current & Voltage Calculators
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Verified Load Current using Line Losses (single-Phase two-Wire Mid-Point OS)
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Verified Maximum Voltage using Area of X-section(single-Phase two-Wire Mid-point Earthed OS)
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Verified Maximum Voltage using Line Losses (single-Phase two-Wire Mid-Point OS)
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Verified Maximum Voltage using Load Current (single-Phase two-Wire Mid-Point OS)
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Verified RMS Voltage using Area of X-section(single-Phase two-Wire Mid-point Earthed OS)
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Verified RMS Voltage using Line Losses (single-Phase two-Wire Mid-Point OS)
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Verified RMS Voltage using Load Current (single-Phase two-Wire Mid-Point OS)
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3 More Current & Voltage Calculators
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Verified Maximum Voltage using Area of X-section(3-phase 4-wire OS)
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Verified Maximum Voltage using Load Current (3-phase 4-wire OS)
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Verified Maximum Voltage using Volume of Conductor Material (3-phase 4-wire OS)
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Verified Maximum Voltage(3-Phase 4-Wire OS)
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3 More Current & Voltage Calculators
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Verified Maximum Voltage using Load Current (1-Phase 2-Wire US)
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Verified Maximum Voltage using Volume of Conductor Material (1-Phase 2-Wire US)
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Verified RMS Voltage using Area of X-Section (1-Phase 2-Wire US)
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Verified RMS Voltage using Constant (1-Phase 2-Wire US)
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Verified RMS Voltage using Volume of Conductor Material (1-Phase 2-Wire US)
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12 More Current & Voltage Calculators
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Verified Load Current using Area of X-section(2-phase 4-wire OS)
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Verified Load Current using Line Losses (2-Phase 4-Wire OS)
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Verified Load Current(2-Phase 4-Wire OS)
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Verified Maximum Voltage using Line Losses (2-Phase 4-Wire OS)
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Verified Maximum Voltage using Load Current (2-Phase 4-Wire OS)
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Verified RMS Voltage using Area of X-Section(2-phase 4-wire OS)
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Verified RMS Voltage using Line Losses (2-Phase 4-Wire OS)
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Verified RMS Voltage using Load Current (2-Phase 4-Wire OS)
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2 More Current & Voltage Calculators
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Verified Load Current (1-phase 2-wire Mid-point Earthed)
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Verified Load Current using Line Losses (1-phase 2-wire Mid-point Earthed)
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Verified Maximum Voltage using Area of X-Section (1-phase 2-wire Mid-point Earthed)
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Verified Maximum Voltage using Line Losses (1-phase 2-wire Mid-point Earthed)
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Verified Maximum Voltage using Load Current (1-phase 2-wire Mid-point Earthed)
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Verified RMS Voltage using Area of X-Section (1-phase 2-wire Mid-point Earthed)
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Verified RMS Voltage using Line Losses (1-phase 2-wire Mid-point Earthed)
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Verified RMS Voltage using Load Current (1-phase 2-wire Mid-point Earthed)
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Verified Current using Line Losses (3-phase 3-wire US)
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Verified Load Current Per Phase (3-phase 3-wire US)
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Verified Load Current using Line Losses (DC Three-Wire US)
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Verified Maximum Voltage using Area of X-Section (3-phase 3-wire US)
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Verified Maximum Voltage using Area of X-Section (DC Three-Wire US)
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Verified Maximum Voltage using Line Losses (DC Three-Wire US)
Go
Verified Maximum Voltage using Volume of Conductor Material (3-phase 3-wire US)
Go
Verified RMS Voltage Per Phase (3-phase 3-wire US)
Go
Verified RMS Voltage using Area of X-Section (3-phase 3-wire US)
Go
Verified RMS Voltage using Load Current Per Phase (3-phase 3-wire US)
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4 More Current & Voltage Calculators
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Verified Load Current using Line Losses (DC Two-Wire US)
Go
Verified Maximum Voltage using Area of X-Section (DC Two-Wire US)
Go
Verified Maximum Voltage using Line Losses (DC Two-Wire US)
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Verified Load Current(Two-Wire Mid-point Earthed)
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Verified Maximum Voltage (Two-Wire Mid-point Earthed)
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4 More Current & Voltage Calculators
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Verified Receiving End Angle (LTL)
Go
Verified Receiving End Angle using Hyperbolic Sine(LTL)
Go
Verified Receiving End Current using Sending End Current (LTL)
Go
Verified Receiving End Current using Sending End Voltage (LTL)
Go
Verified Receiving End Voltage using Sending End Current (LTL)
Go
Verified Receiving End Voltage using Sending End Voltage (LTL)
Go
Verified Sending End Current (LTL)
Go
Verified Sending End Voltage (LTL)
Go
Verified Load Current in Each Outer (2-phase 3-wire OS)
Go
Verified Load Current using Area of X-Section(2-phase 3-wire OS)
Go
Verified Maximum Voltage using Line Losses (2-Phase 3-Wire OS)
Go
Verified Maximum Voltage using Volume of Conductor Material (2-phase 3-wire OS)
Go
Verified Maximum Voltage(2-Phase 3-Wire OS)
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Verified RMS Voltage using Area of X-Section(2-phase 3-wire OS)
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Verified RMS Voltage using Line Losses (2-Phase 3-Wire OS)
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Verified RMS Voltage using Load Current (2-phase 3-wire OS)
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4 More Current & Voltage Calculators
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Verified Current in Each Outer (2-Phase 3-Wire US)
Go
Verified Current in Each Outer using Current in Neutral Wire (2-Phase 3-Wire US)
Go
Verified Current in Neutral Wire (2-Phase 3-Wire US)
Go
Verified Current in Neutral Wire using Current in Each Outer (2-Phase 3-Wire US)
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Verified Maximum Voltage using Line Losses (2-Phase 3-Wire US)
Go
Verified Maximum Voltage using Volume of Conductor Material (2-phase 3-wire US)
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Verified RMS Voltage between Outer and Neutral Wire (2-Phase 3-Wire US)
Go
Verified RMS Voltage using Current in Each Outer (2-Phase 3-Wire US)
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Verified RMS Voltage using Current in Neutral Wire (2-Phase 3-Wire US)
Go
Verified RMS Voltage using Line Losses (2-Phase 3-Wire US)
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4 More Current & Voltage Calculators
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Verified Load Current (3-phase 4-wire US)
Go
Verified Load Current using Line Losses (3-phase 4-wire US)
Go
Verified Load Current using Volume of Conductor Material (3-phase 4-wire US)
Go
Verified Maximum Voltage using Area of X-Section (3-phase 4-wire US)
Go
Verified Maximum Voltage using Line Losses (3-phase 4-wire US)
Go
Verified Maximum Voltage using Load Current (3-phase 4-wire US)
Go
Verified Maximum Voltage using Volume of Conductor Material (3-phase 4-wire US)
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Verified Maximum Voltage using K(Two-Wire One Conductor Earthed)
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Verified Maximum Voltage using Line Losses(Two-Wire One Conductor Earthed)
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Verified Maximum Voltage using Volume(Two-Wire One Conductor Earthed)
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2 More Current & Voltage Calculators
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Verified Load Current(3-Phase 3-Wire OS)
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Verified Maximum Voltage using Load Current(3-phase 3-wire OS)
Go
Verified Maximum Voltage(3-Phase 3-Wire OS)
Go
Verified Resistance(3-Phase 3-Wire OS)
Go
Verified RMS Voltage using Area of X-section(3-phase 3-wire OS)
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3 More Current & Voltage Calculators
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Verified Load Current using Area of X-section (1-phase 3-wire US)
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Verified Load Current using Line Losses (1-phase 3-wire US)
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Verified Maximum Voltage using Area of X-section (1-phase 3-wire US)
Go
Verified Maximum Voltage using Line Losses (1-phase 3-wire US)
Go
Verified Maximum Voltage using Load Current (1-phase 3-wire US)
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Verified RMS Voltage using Area of X-section (1-phase 3-wire US)
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Verified RMS Voltage using Line Losses (1-phase 3-wire US)
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3 More Current & Voltage Calculators
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Verified Load Current (2-wire Mid-point DC US)
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Verified Maximum Voltage using Area of X-Section (2-wire Mid-point earthed DC US)
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Verified Maximum Voltage using Load Current (2-wire Mid-point DC US)
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Verified Maximum Voltage using Volume of Conductor Material (2-wire Mid-point DC US)
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Verified RMS Voltage using Area of X-Section (2-wire Mid-point earthed DC US)
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Verified Load Current (2-phase 4-wire US)
Go
Verified Load Current using Area of X-Section (2-phase 4-wire US)
Go
Verified Load Current using Line Losses (2-phase 4-wire US)
Go
Verified Maximum Voltage using Area of X-Section (2-phase 4-wire US)
Go
Verified Maximum Voltage using Line Losses (2-phase 4-wire US)
Go
Verified Maximum Voltage using Load Current (2-phase 4-wire US)
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Verified RMS Voltage using Area of X-Section (2-phase 4-wire US)
Go
Verified RMS Voltage using Line Losses (2-phase 4-wire US)
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Verified RMS Voltage using Load Current (2-phase 4-wire US)
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1 More Current & Voltage Calculators
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Verified Cutting Force given Rate of Energy Consumption during Machining
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Verified Cutting Force given Specific Cutting Energy in Machining
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Verified Force required to remove Chip and acting on Tool Face
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Verified Resultant Cutting Force using Force required to remove Chip
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Verified Total Loss Power given Overall Efficiency of DC Motor
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5 More DC Machine Power & Losses Calculators
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Verified Armature Copper Loss given Overall Efficiency of DC Motor
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Verified Constant Losses given Overall Efficiency of DC Motor
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Verified Converted Power given Electrical Efficiency of DC Motor
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Verified Converted Power given Mechanical Efficiency of DC Motor
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Verified Core Loss given Overall Efficiency of DC Motor
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Verified Field Copper Loss given Overall Efficiency of DC Motor
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Verified Input Power given Electrical Efficiency of DC Motor
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Verified Input Power given Overall Efficiency of DC Motor
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Verified Mechanical Loss given Overall Efficiency of DC Motor
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Verified Output Power given Mechanical Efficiency of DC Motor
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Verified Output power given Overall Efficiency of DC Motor
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Verified Angular Speed of Series DC Motor given Kf
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Verified Angular Speed of Series DC Motor given Output Power
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Verified Armature Resistance of Series DC Motor given Voltage
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Verified Input Power of Series DC Motor
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Verified K of Series DC Motor using Speed
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Verified Kf of Series DC Motor given Torque
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Verified Kf of Series DC Motor using Armature Induced Voltage
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Verified Magnetic Flux of Series DC Motor given Kf
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Verified Magnetic Flux of Series DC Motor given Speed
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Verified Magnetic Flux of Series DC motor given Torque
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Verified Output Power of Series DC Motor
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Verified Series Field Resistance of Series DC Motor given Speed
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Verified Series Field Resistance of Series DC Motor given Voltage
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Verified Speed of Series DC Motor
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Verified Torque of Series DC Motor given Kf
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Verified Torque of Series DC Motor given Output Power
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Verified Armature Conductors of DC Shunt Motor using K
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Verified Armature Parallel Path of Shunt DC Motor
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Verified Armature Resistance of Shunt DC Motor given Voltage
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Verified Input Power of Shunt DC Motor
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Verified K of Shunt DC Motor
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Verified K using Speed of Shunt DC Motor
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Verified Kf of DC Shunt Motor
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Verified Kf of DC Shunt Motor given Torque
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Verified Magnetic Flux of DC Shunt Motor given Kf
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Verified Magnetic Flux of DC Shunt Motor given Torque
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Verified Magnetic Flux using Speed of Shunt DC Motor
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Verified Maximum Power Condition of Shunt DC Motor
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Verified Number of Pole of Shunt DC Motor
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Verified Shunt Field Resistance of Shunt DC Motor given Shunt Field Current
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Verified Torque of DC Shunt Motor given Kf
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Verified Torque of DC Shunt Motor given Output Power
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Verified Delta Impedance for Delta Connected Load using Negative Sequence Voltage
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Verified Delta Impedance for Delta Connected Load using Positive Sequence Voltage
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1 More Delta Connection Calculators
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Created Diameter of Spring Wire given Mean Stress in Spring
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Created Diameter of Spring Wire given Torsional Stress Amplitude
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Created Force Amplitude of Spring
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Created Force Amplitude on Spring given Torsional Stress Amplitude
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Created Maximum Force on Spring given Force Amplitude
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Created Maximum Force on Spring given Mean Force
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Created Mean Coil Diameter of Spring given Torsional Stress Amplitude
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Created Mean Diameter of Spring coil given Mean Stress on Spring
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Created Mean Force on spring
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Created Mean Force on Spring given Mean Stress
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Created Mean Stress on Spring
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Created Minimum Force on Spring given Force Amplitude
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Created Minimum Force on Spring given Mean Force
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Created Shear Stress Correction Factor for Spring given Mean Stress
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Created Shear Stress Factor for Spring given Torsional stress amplitude
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Created Shear Yield Strength of Oil-hardened Tempered Steel Wires
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Created Shear Yield Strength of Patented and Cold-drawn Steel Wires
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Created Spring Index given Mean Stress on spring
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Created Spring Index given Torsional Stress Amplitude
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Created Torsional Stress Amplitude in Spring
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Created Ultimate Tensile Stress of Ol hardened tempered Steel wires
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Created Ultimate Tensile Stress of Patented and Cold drawn Steel wires
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Verified Specific Gravity of Material given Absolute Volume of Component
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4 More Design Mix Concrete Calculators
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Created Angle of Twist of Hollow Shaft on Basis of Torsional Rigidity
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Created Axial Tensile Force given Tensile Stress in Hollow Shaft
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Created Bending Moment given Bending Stress in Hollow Shaft
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Created Bending Stress in Hollow Shaft
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Created Inner Diameter of Hollow Shaft given Ratio of Diameters
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Created Length of Shaft given Angle of Twist of Hollow Shaft on Basis of Torsional Rigidity
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Created Modulus of Rigidity given Angle of Twist of Hollow Shaft on basis of Torsional Rigidity
Go
Created Outer Diameter given Ratio of Diameters
Go
Created Outer Diameter of Hollow Shaft given Angle of Twist- Torsional Rigidity
Go
Created Outer Diameter of Hollow Shaft given Bending Stress of Hollow Shaft
Go
Created Outer Diameter of Hollow Shaft given Principle Stress
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Created Outer Diameter of Shaft given Torsional Shear Stress
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Created Principle Stress- Maximum Principle Stress Theory
Go
Created Ratio of Diameter given Torsional Shear Stress in Hollow Shaft
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Created Ratio of Diameters given Angle of Twist of Hollow Shaft and Torsional Rigidity
Go
Created Ratio of Diameters given Bending Stress of Hollow Shaft
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Created Ratio of Diameters given Principle Stress
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Created Ratio of Diameters given Tensile Stress in Hollow Shaft
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Created Ratio of Inner Diameter to Outer Diameter
Go
Created Tensile Stress in Hollow Shaft when Subjected to Axial Force
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Created Torsional Moment given Angle of Twist on Basis of Torsional Rigidity
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Created Torsional Moment given Torsional Shear Stress in Hollow Shaft
Go
Created Torsional Shear Stress when Shaft is Subjected to Pure Torsional Moment
Go
Created Compressive Stress in Kennedy Key
Go
Created Diameter of Shaft given Compressive Stress in Kennedy Key
Go
Created Diameter of Shaft given Shear Stress in Kennedy Key
Go
Created Length of Kennedy Key given Compressive Stress in Key
Go
Created Length of Kennedy Key given Shear Stress in Key
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Created Shear Stress in Kennedy Key
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Created Torque Transmitted by Kennedy Key given Compressive Stress in Key
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Created Torque Transmitted by Kennedy Key given Shear Stress in Key
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Created Width of Key given Compressive Stress in Key
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Created Compressive Stress of Spigot
Go
Created Equivalent Stress by Distortion Energy Theory
Go
Created Factor of Safety for bi-axial State of Stress
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Created Factor of Safety for Tri-axial State of Stress
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Created Permissible Shear Stress for Cotter
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Created Permissible Shear Stress for Spigot
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Created Polar moment of inertia of hollow circular shaft
Go
Created Polar Moment of Inertia of Solid Circular Shaft
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Created Shear yield strength by maximum distortion energy theory
Go
Created Shear yield strength by maximum shear stress theory
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Created Stress Amplitude
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Created Tensile Stress in Spigot
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4 More Design of Machine Elements Calculators
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Verified Axial Load on Screw given Direct Compressive Stress
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Verified Axial Load on Screw given Transverse Shear Stress
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Verified Axial Load on Screw given Transverse Shear Stress at Root of Nut
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Verified Axial Load on Screw given Unit Bearing Pressure
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Verified Bearing Area between Screw and Nut for One Thread
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Verified Core Diameter of Screw given Direct Compressive Stress
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Verified Core Diameter of Screw given Torsional Shear Stress
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Verified Core Diameter of Screw given Transverse Shear Stress in Screw
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Verified Core Diameter of Screw given Unit Bearing Pressure
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Verified Direct Compressive Stress in Screw
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Verified Nominal Diameter of Screw given Transverse Shear Stress at Root of Nut
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Verified Nominal Diameter of Screw given Unit Bearing Pressure
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Verified Number of Threads in Engagement with Nut given Transverse Shear Stress
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Verified Number of Threads in Engagement with Nut given Transverse Shear Stress at Root of Nut
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Verified Thread Thickness at Core Diameter of Screw given Transverse Shear Stress
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Verified Thread Thickness at Root of Nut given Transverse Shear Stress at Root of Nut
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Verified Torsional Moment in Screw given Torsional Shear Stress
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Verified Torsional Shear Stress of Screw
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Verified Transverse Shear Stress at Root of Nut
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Verified Transverse Shear Stress in Screw
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Verified Unit Bearing Pressure for Thread
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1 More Design of Screw and Nut Calculators
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Verified Allowable Bond Stress for Horizontal Tension Bars of Sizes and Deformations Conforming to ASTM A 408
Go
Verified Concrete Compressive Strength given Total Allowable Axial Load
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Verified Spiral Reinforcement Yield Strength given Spiral Volume to Concrete Core Volume Ratio
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Verified Total Allowable Axial Load for Short Columns
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4 More Design of Short Column under Axial Compression Calculators
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Created Compressive Stress in Key
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Created Compressive Stress in Square Key due to Transmitted Torque
Go
Created Force on Key
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Created Height of Key given Compressive Stress in Key
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Created Length of Key given Compressive Stress in Key
Go
Created Length of Key given Shear Stress
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Created Shaft Diameter given Compressive Stress in Key
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Created Shaft Diameter given Force on Key
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Created Shear Stress in given Force on Key
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Created Shear Stress in Key given Torque Transmitted
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Created Torque Transmitted by Keyed Shaft given Force on Keys
Go
Created Torque Transmitted by Keyed Shaft given Stress in Key
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Created Width of Key given Shear Stress in Key
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Verified Circle Diameter given Axial Load for Spiral Columns
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Verified Column Diameter given Maximum Permissible Eccentricity for Spiral Columns
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Verified Longitudinal Reinforcement Area given Axial Load for Spiral Columns
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Verified Maximum Permissible Eccentricity for Spiral Columns
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Verified Maximum Permissible Eccentricity for Tied Columns
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8 More Design Under Axial Compression with Biaxial Bending Calculators
Go
Verified A Parameter in terms of g11 Parameter
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Verified A Parameter in terms of g12 Parameter
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Verified A Parameter in terms of g21 Parameter
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Verified A Parameter in terms of g22 Parameter
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Verified D' Parameter given g11 Parameter
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Verified D' Parameter given g12 Parameter
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Verified D' Parameter given g21 Parameter
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Verified D' Parameter given g22 Parameter
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Verified y22 Parameter given g11 Parameter
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Verified y22 Parameter given g12 Parameter
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Verified y22 Parameter given g21 Parameter
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Verified y22 Parameter given g22 Parameter
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Verified z11 Parameter given g11 Parameter
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Verified z11 Parameter given g12 Parameter
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Verified z11 Parameter given g21 Parameter
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Verified z11 Parameter given g22 Parameter
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Verified A' Parameter given h11 Parameter
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Verified A' Parameter given h12 Parameter
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Verified A' Parameter given h21 Parameter
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Verified A' Parameter given h22 Parameter
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Verified D Parameter given h11 Parameter
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Verified D Parameter given h12 Parameter
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Verified D Parameter given h21 Parameter
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Verified D Parameter given h22 Parameter
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Verified y11 Parameter given h11 Parameter
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Verified y11 Parameter given h12 Parameter
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Verified y11 Parameter given h21 Parameter
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Verified y11 Parameter given h22 Parameter
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Verified z22 Parameter given h11 Parameter
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Verified z22 Parameter given h12 Parameter
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Verified z22 Parameter given h21 Parameter
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Verified z22 Parameter given h22 Parameter
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Verified g21 Parameter given A Parameter
Go
Verified g21 Parameter given B Parameter
Go
Verified g21 Parameter given C Parameter
Go
Verified g21 Parameter given D Parameter
Go
Verified h21 Parameter given A Parameter
Go
Verified h21 Parameter given B Parameter
Go
Verified h21 Parameter given C Parameter
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Verified h21 Parameter given D Parameter
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Verified y21 Parameter given A Parameter
Go
Verified y21 Parameter given B Parameter
Go
Verified y21 Parameter given C Parameter
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Verified y21 Parameter given D Parameter
Go
Verified z21 Parameter given A Parameter
Go
Verified z21 Parameter given B Parameter
Go
Verified z21 Parameter given C Parameter
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Verified z21 Parameter given D Parameter
Go
Verified g12 Parameter given A' Parameter
Go
Verified g12 Parameter given B' Parameter
Go
Verified g12 Parameter given C' Parameter
Go
Verified g12 Parameter given D' Parameter
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Verified h12 Parameter given A' Parameter
Go
Verified h12 Parameter given B' Parameter
Go
Verified h12 Parameter given C' Parameter
Go
Verified h12 Parameter given D' Parameter
Go
Verified y12 Parameter given A' Parameter
Go
Verified y12 Parameter given B' Parameter
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Verified y12 Parameter given C' Parameter
Go
Verified y12 Parameter given D' Parameter
Go
Verified z12 Parameter given A' Parameter
Go
Verified z12 Parameter given B' Parameter
Go
Verified z12 Parameter given C' Parameter
Go
Verified z12 Parameter given D' Parameter
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Verified B Parameter given y11 Parameter
Go
Verified B' Parameter given y11 Parameter
Go
Verified B Parameter given y12 Parameter
Go
Verified B' Parameter given y12 Parameter
Go
Verified B Parameter given y21 Parameter
Go
Verified B' Parameter given y21 Parameter
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Verified B Parameter given y22 Parameter
Go
Verified B' Parameter given y22 Parameter
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Verified g22 Parameter given y11 Parameter
Go
Verified g22 Parameter given y12 Parameter
Go
Verified g22 Parameter given y21 Parameter
Go
Verified g22 Parameter given y22 Parameter
Go
Verified h11 Parameter given y11 Parameter
Go
Verified h11 Parameter given y12 Parameter
Go
Verified h11 Parameter given y21 Parameter
Go
Verified h11 Parameter given y22 Parameter
Go
Verified C Parameter given z11 Parameter
Go
Verified C' Parameter given z11 Parameter
Go
Verified C Parameter given z12 Parameter
Go
Verified C' Parameter given z12 Parameter
Go
Verified C Parameter given z21 Parameter
Go
Verified C' Parameter given z21 Parameter
Go
Verified C Parameter given z22 Parameter
Go
Verified C' Parameter given z22 Parameter
Go
Verified g11 Parameter given z11 Parameter
Go
Verified g11 Parameter given z12 Parameter
Go
Verified g11 Parameter given z21 Parameter
Go
Verified g11 Parameter given z22 Parameter
Go
Verified h22 Parameter given z11 Parameter
Go
Verified h22 Parameter given z12 Parameter
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Verified h22 Parameter given z21 Parameter
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Verified h22 Parameter given z22 Parameter
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Created Actuating Force
Go
Created Actuating Force given Torque Capacity of Disk Brake
Go
Created Angular Dimension of Pad given Area of Brake Pad
Go
Created Area of Brake Pad
Go
Created Area of Pad given Actuating Force
Go
Created Average Pressure given Actuating Force
Go
Created Coefficient of Friction given Torque Capacity of Disk Brake
Go
Created Friction Radius given Torque Capacity of Disk Brake
Go
Created Friction Radius of Disk Brake
Go
Created Inner Radius of Brake Pad given Area of Brake Pad
Go
Created Outer Radius of Brake Pad given Area of Brake Pad
Go
Created Torque Capacity of Disk Brake
Go
Created Allowable Load per mm Length of Transverse Fillet Weld
Go
Created Force Acting given Shear Stress-induced in Plane that is Inclined at angle theta
Go
Created Leg of Weld given Allowable Lod per mm Length of Transverse Fillet Weld
Go
Created Leg of Weld given Maximum Shear Stress-induced in Plane
Go
Created Leg of Weld given Shear Stress-induced in Plane
Go
Created Length of Weld given Maximum Shear Stress-induced in Plane
Go
Created Length of Weld given Shear Stress-induced in Plane that is inclined at Angle theta
Go
Created Maximum Shear Stress-induced given Allowable Load per mm length of Transverse Fillet Weld
Go
Created Maximum Shear Stress-induced in Plane that is Inclined at Angle theta
Go
Created Shear Stress-Induced in Plane that is inclined at Angle theta to Horizontal
Go
1 More Double Transverse Fillet Weld Calculators
Go
Verified Moment Resisting Capacity of Compressive Steel
Go
17 More Doubly Reinforced Rectangular Sections Calculators
Go
Created Bending Moment given Total Cross-Sectional Area of Tensile Reinforcing
Go
Created Cross-Sectional Area of Compressive Reinforcing
Go
Created Total Cross-Sectional Area of Tensile Reinforcing
Go
Created Couple on Weld given Torsional Shear Stress in Throat Area of Weld
Go
Created Distance of point in Weld from Center of Gravity given Torsional Shear Stress
Go
Created Length of Weld given Polar Moment of Inertia of Weld about its Center of Gravity
Go
Created Load acting on Weld given Primary Stress
Go
Created Polar Moment of Inertia of Weld about Center of Gravity
Go
Created Polar Moment of Inertia of Weld about Center of Gravity given Torsional Shear Stress
Go
Created Primary Shear Stress in Weld
Go
Created Throat Area of Weld given Polar Moment of Inertia of Weld about Center
Go
Created Throat Area of Weld given Primary Shear Stress
Go
Created Torsional Shear Stress in Throat Area of Weld
Go
Created Critical Buckling Load given Deflection in Eccentric Loading
Go
Created Cross-Sectional Area given Radius of Gyration in Eccentric Loading
Go
Created Cross-Sectional Area given Total Stress is where Load doesn't lie on Plane
Go
Created Cross-Sectional Area given Total Unit Stress in Eccentric Loading
Go
Created Deflection in Eccentric Loading
Go
Created Distance from XX to outermost fiber given Total Stress where Load doesn't lie on Plane
Go
Created Distance from YY to outermost fiber given Total Stress where Load doesn't lie on Plane
Go
Created Eccentricity given Deflection in Eccentric Loading
Go
Created Eccentricity w.r.t axis XX given Total Stress where Load doesn't lie on Plane
Go
Created Eccentricity w.r.t axis YY given Total Stress where Load doesn't lie on Plane
Go
Created Load for Deflection in Eccentric Loading
Go
Created Moment of Inertia about XX given Total Stress where Load doesn't lie on Plane
Go
Created Moment of Inertia about YY given Total Stress where Load doesn't lie on Plane
Go
Created Moment of Inertia given Radius of Gyration in Eccentric Loading
Go
Created Moment of Inertia of Cross-Section given Total Unit Stress in Eccentric Loading
Go
Created Neutral Axis to Outermost Fiber Distance given Total Unit Stress in Eccentric Loading
Go
Created Radius of Gyration in Eccentric Loading
Go
Created Total Stress in Eccentric Loading when Load doesn't lie on Plane
Go
Created Total Unit Stress in Eccentric Loading
Go
Created Total Unit Stress in Eccentric Loading given Radius of Gyration
Go
Verified Maximum Stress for Circular Cross-Section Columns
Go
Verified Maximum Stress for Rectangular Cross-Section Column
Go
Verified Theoretical Maximum Stress for ANC Code Alloy Steel Tubing
Go
Verified Theoretical Maximum Stress for Secant Code Steels
Go
Created Thickness of Wall for Hollow Octagon
Go
8 More Eccentric Loads on Columns Calculators
Go
Created Imaginary Force at Center of Gravity of Bolted Joint given Primary Shear Force
Go
Created Number of Bolts given Primary Shear Force
Go
Created Primary Shear Force of Eccentrically Loaded Bolted Connection
Go
Verified Amount of Compression in Parts Joined by Bolt
Go
Verified Elongation of Bolt under action of Pre Load
Go
Verified Nominal Diameter of Bolt given Stiffness of Bolt
Go
Verified Pre load in Bolt given Amount of Compression in Parts Joined by Bolt
Go
Verified Pre load in Bolt given Elongation of Bolt
Go
Verified Resultant Load on Bolt given Pre load and External Load
Go
Verified Stiffness of Bolt given Thickness of Parts joined by Bolt
Go
Verified Thickness of Parts held together by Bolt given Stiffness of Bolt
Go
Verified Young's Modulus of Bolt given Stiffness of Bolt
Go
Verified Axial Buckling Load for Warped Section
Go
Verified Polar Moment of Inertia for Pin Ended Columns
Go
Verified Slenderness Ratio given Critical Buckling Load for Pin Ended Columns
Go
9 More Elastic Flexural Buckling of Columns Calculators
Go
Created Absolute value of moment at centerline of unbraced beam segment
Go
Created Absolute value of moment at quarter point of unbraced beam segment
Go
Created Absolute value of moment at three-quarter point of unbraced beam segment
Go
Created Critical Bending Coefficient
Go
Created Critical Bending Moment for Simply Supported Open Section Beam
Go
Created Critical Bending Moment in Non-Uniform Bending
Go
Created Minor Axis Moment of Inertia of Simply Supported Beam given Critical Bending Moment
Go
Created Shear Elasticity Modulus given Critical Bending Moment of Simply Supported Open Beam
Go
5 More Elastic Lateral Buckling of Beams Calculators
Go
Verified Receiving End Current(ECM)
Go
Verified Sending End Current using Impedance(ECM)
Go
Verified Sending End Current(ECM)
Go
4 More End Condenser Method Calculators
Go
Created Brake Drum Rotational Angle given Work Done by Brake
Go
Created Braking Torque given Work Done by Brake
Go
Created Final Angular Velocity of Body given Kinetic Energy of Rotating Body
Go
Created Final Velocity given Kinetic Energy Absorbed by Brakes
Go
Created Initial Angular Velocity of Body given Kinetic Energy of Rotating Body
Go
Created Initial Velocity of System given Kinetic Energy Absorbed by Brakes
Go
Created Kinetic Energy Absorbed by Brake
Go
Created Kinetic energy of Rotating Body
Go
Created Mass of System given Kinetic Energy Absorbed by Brakes
Go
Created Mass of System given Kinetic Energy of Rotating Body
Go
Created Mass of System given Potential Energy Absorbed during Braking Period
Go
Created Moment of Inertia of System given Kinetic Energy of Rotating Body
Go
Created Potential Energy Absorbed during Braking Period
Go
Created Radius of Gyration given Kinetic Energy of Rotating Body
Go
Created Total Energy Absorbed by Brake
Go
Created Entropy using Helmholtz Free Energy
Go
Created Helmholtz free energy
Go
Created Internal Energy using Helmholtz Free Energy
Go
Created Temperature using Helmholtz free Energy
Go
6 More Entropy Generation Calculators
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Created Angle of Inclined Manometer
Go
Created Discharge through Elbow Meter
Go
Created Theoretical discharge for Venturimeter
Go
Created U-Tube Manometer equation
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5 More Equipments Calculators
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Created Axial Thrust Load on Bearing given Equivalent Dynamic Load
Go
Created Equivalent Dynamic Load for Back to Back Bearings when subjected to Pure Radial Load
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Created Equivalent Dynamic Load for Back to Back Bearings when subjected to Pure Thrust Load
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Created Race Rotation Factor for Bearing given Radial Factor
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Created Radial Factor of Bearing given Equivalent Dynamic Load
Go
Created Radial Load of Bearing given Radial Factor
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Created Thrust Factor on Bearing given Equivalent Dynamic Load
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1 More Equivalent Bearing Load Calculators
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Created Bending Stress in extra full length leaves
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Created Bending Stress in Plate Extra Full Length
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Created Deflection at end of leaf Spring
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Created Deflection of leaf Spring at load point
Go
Created Force applied at end of Spring given Bending Stress in extra full length leaves
Go
Created Force applied at end of Spring given Deflection at end of Spring
Go
Created Force applied at end of Spring given Force taken by extra full length leaves
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Created Force taken by extra full length leaves given Force applied at end of Spring
Go
Created Length of Cantilever given Bending Stress in extra full length leaves
Go
Created Length of Cantilever given Deflection at end of Spring
Go
Created Length of Cantilever given Deflection of Spring at load point
Go
Created Modulus of Elasticity of leaf of leaf spring given Deflection of Spring at load point
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Created Modulus of Elasticity of Spring given Deflection at end of Spring
Go
Created Number of extra full length leaves given Bending Stress in extra full length leaves
Go
Created Number of extra full length leaves given Deflection at end of Spring
Go
Created Number of extra full length leaves given Deflection of Spring at load point
Go
Created Number of Graduated length leaves given Bending Stress in extra full length leaves
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Created Number of Graduated length leaves given Deflection at End of Spring
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Created Number of Graduated length leaves given Force taken by extra full length leaves
Go
Created Portion of Force taken by extra full length leaf given deflection of Spring at load point
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Created Thickness of each leaf given Bending Stress in extra full length leaves
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Created Thickness of each leaf given Deflection at end of Spring
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Created Width of each leaf given Bending Stress in extra full length leaves
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Created Width of each leaf of leaf Spring given Deflection of Spring at load point
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Created Width of Leaf given Deflection at end of Spring
Go
Feed (4)
Verified Feed in Slab Milling given Feed Speed
Go
Verified Feed Rate for Turning Operation given Machining Time
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Verified Feed Speed in Vertical Milling given Maximum Chip Thickness
Go
Verified Feed Speed of Workpiece in Slab Milling
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Verified Beam Effective Depth given Bond Stress on Bar Surface
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Verified Total Shear given Bond Stress on Bar Surface
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2 More Flexural Bond Calculators
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Verified Roughness Coefficient using Flow Velocity
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7 More Flow velocity in straight sewers Calculators
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Created Area of Wetted Surface given Total Hydrostatic Force
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Created Distance between Plates given Dynamic Viscosity of Fluid
Go
Created Dynamic Viscosity of Gases
Go
Created Dynamic Viscosity of Liquids
Go
Created Force in direction of jet striking stationary vertical plate
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Created Friction Factor given Frictional Velocity
Go
Created Normal Stress 2
Go
Created Shear Stress using Dynamic Viscosity of Fluid
Go
Created Total Hydrostatic force
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9 More Fluid Force Calculators
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Created Metacentric Height given Time Period of Rolling
Go
Created Rate of Flow given Head loss in Laminar Flow
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Created Rate of Flow given Hydraulic Transmission Power
Go
Created Reynolds Number given Frictional Factor of Laminar Flow
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13 More Fluid in Motion Calculators
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Created Efficiency of transmission
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Created Hydraulic Transmission of Power
Go
Created Sensitivity of inclined manometer
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Created Stagnation Pressure head
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Created Time period of Rolling
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Created Time to Reach Highest Point
Go
Created Unstable Equilibrium of Floating Body
Go
Created Vorticity
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16 More Fluid Mechanics Calculators
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Created Force applied at end of Leaf Spring
Go
Created Force applied at end of Spring given Bending Stress on Graduated length leaves
Go
Created Force Applied at End of Spring given Force Taken by Graduated length Leaves
Go
Created Force taken by Extra Full length leaves given Number of leaves
Go
Created Force Taken by Full Length Leaves given Bending Stress in Plate Extra Full Length
Go
Created Force Taken by Full length Leaves given Force at end of Spring
Go
Created Force taken by Graduated length leaves given Bending Stress in Plate
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Created Force Taken by Graduated length leaves given Deflection at Load Point
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Created Force taken by graduated length leaves given force applied at end of spring
Go
Created Force Taken by Graduated length leaves given Number of Leaves
Go
Created Force Taken by Graduated Length Leaves in Terms of Force Applied at End of Spring
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Verified Allowable Compressive Stress Parallel to Grain for Long Columns
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3 More Forest Products Laboratory Recommendations Calculators
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Verified Correction Factor for Rectangle
Go
Verified Correction Factor Ny for Rectangle
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Verified Maximum Soil Pressure
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8 More Foundation Stability Analysis Calculators
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Verified g11 Parameter in Terms of H Parameters
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Verified g11 Parameter in Terms of T Parameters
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Verified g11 Parameter in Terms of T' Parameters
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Verified g11 Parameter in Terms of Y Parameters
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Verified g11 Parameter in Terms of Z Parameters
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Verified g12 Parameter in Terms of H Parameters
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Verified g12 Parameter in Terms of T Parameters
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Verified g12 Parameter in Terms of T' Parameters
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Verified g12 Parameter in Terms of Y Parameters
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Verified g12 Parameter in Terms of Z Parameters
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Verified g21 Parameter in Terms of H Parameters
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Verified g21 Parameter in Terms of T Parameters
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Verified g21 Parameter in Terms of T' Parameters
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Verified g21 Parameter in Terms of Y Parameters
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Verified g21 Parameter in Terms of Z Parameters
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Verified g22 Parameter in Terms of H Parameters
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Verified g22 Parameter in Terms of T Parameters
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Verified g22 Parameter in Terms of T' Parameters
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Verified g22 Parameter in Terms of Y Parameters
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Verified g22 Parameter in Terms of Z Parameters
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Created Average Chain Velocity given Number of Teeth on Sprocket
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Created Average Velocity of Chain
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Created Chain Pitch given Minimum Tooth Height above Pitch Polygon
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Created Length of Chain
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Created Number of Links in Chain
Go
Created Number of Links in Chain given Length of Chain
Go
Created Pitch of chain given Average Chain Velocity
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Created Pitch of chain given Length of Chain
Go
Created Pitch of chain given Pitch Circle Diameter
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Created Roller Radius given Maximum Tooth Height above Pitch Polygon
Go
Created Roller Radius given Minimum Roller Seating Radius
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Created Roller Radius given Minimum Tooth Flank Radius
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Created Roller Radius given Minimum Tooth Height above Pitch Polygon
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Created Roller Radius given Tooth Flank Radius
Go
Created Roller Radius given Top Diameter of Sprocket Wheel
Go
Created Speed of Rotation of Driven Shaft given Velocity Ratio of Chain Drives
Go
Created Speed of Rotation of Driving Shaft given Velocity Ratio of Chain Drives
Go
Created Speed of Rotations of Driving and Driven Shafts given Average Chain Velocity
Go
Created Velocity Ratio of Chain Drives
Go
Verified Current-1 (G-parameter)
Go
Verified Current-1 given G11 Parameter (G-parameter)
Go
Verified Current-1 given G12 Parameter (G-parameter)
Go
Verified Current-2 given Current-1 (G-parameter)
Go
Verified Current-2 given G12 Parameter (G-parameter)
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Verified Current-2 given G22 Parameter (G-parameter)
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Verified Current-2 given Voltage-2 (G-parameter)
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Verified g11 Parameter (G-parameter)
Go
Verified g11 Parameter given Current-1 (G-parameter)
Go
Verified g12 Parameter (G-parameter)
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Verified g12 Parameter given Current-1 (G-parameter)
Go
Verified g21 Parameter (G-parameter)
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Verified g21 Parameter given Voltage-2 (G-parameter)
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Verified g22 Parameter (G-parameter)
Go
Verified g22 Parameter given Voltage-2 (G-parameter)
Go
Verified Voltage-1 given Current-1 (G-parameter)
Go
Verified Voltage-1 given G11 Parameter (G-parameter)
Go
Verified Voltage-1 given G21 Parameter (G-parameter)
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Verified Voltage-1 given Voltage-2 (G-parameter)
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Verified Voltage-2 (G-parameter)
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Verified Voltage-2 given G21 Parameter (G-parameter)
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Verified Voltage-2 given G22 Parameter (G-parameter)
Go
Verified Overturning Moment
Go
Verified Pressure when Resultant is Outside Middle Third
Go
Verified Retaining Wall Righting Moment
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4 More Gravity Retaining Wall Calculators
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Verified Machining Time for Plunge Grinder
Go
Verified Material Removal Rate in Cylindrical and Internal Grinder
Go
Verified Material Removal Rate in Plunge-Grinder
Go
Verified Traverse Speed for Cylindrical and Internal Grinder given MRR
Go
6 More Grinding Operation Calculators
Go
Verified Allowable Design Load on Rock Socket
Go
Verified Socket Length given Allowable Design Load on Rock Socket
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4 More Group of Piles Calculators
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Verified h11 Parameter in Terms of G Parameters
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Verified h11 Parameter in Terms of T Parameters
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Verified h11 Parameter in Terms of T' Parameters
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Verified h11 Parameter in Terms of Y Parameters
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Verified h11 Parameter in Terms of Z Parameters
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Verified h12 Parameter in Terms of G Parameters
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Verified h12 Parameter in Terms of T Parameters
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Verified h12 Parameter in Terms of T' Parameters
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Verified h12 Parameter in Terms of Y Parameters
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Verified h12 Parameter in Terms of Z Parameters
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Verified h21 Parameter in Terms of G Parameters
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Verified h21 Parameter in Terms of T Parameters
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Verified h21 Parameter in Terms of T' Parameters
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Verified h21 Parameter in Terms of Y Parameters
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Verified h21 Parameter in Terms of Z Parameters
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Verified h22 Parameter in Terms of G Parameters
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Verified h22 Parameter in Terms of T Parameters
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Verified h22 Parameter in Terms of T' Parameters
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Verified h22 Parameter in Terms of Y Parameters
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Verified h22 Parameter in Terms of Z Parameters
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Created Black bodies heat exchange by radiation
Go
Created Convective processes heat transfer coefficient
Go
Created Heat Exchange by Radiation due to Geometric Arrangement
Go
Created Heat Flux
Go
Created Heat transfer
Go
Created Non Ideal Body Surface Emittance
Go
Created One dimensional heat flux
Go
Created Thermal Resistance in Convection Heat Transfer
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10 More Heat Transfer Calculators
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Created Axial Deflection of Spring due to Axial load given Stiffness of Spring
Go
Created Axial Spring Force given Stiffness of Spring
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Created Diameter of Spring Wire from Load Stress Equation
Go
Created Diameter of Spring Wire given Spring Index
Go
Created Inside Diameter of Spring Coil given Mean Coil Diameter
Go
Created Mean Coil Diameter given Spring Index
Go
Created Mean Coil Diameter of Spring
Go
Created Outside Diameter of Spring given Mean Coil Diameter
Go
Created Shear stress in spring
Go
Created Solid Length of Spring
Go
Created Spring Index
Go
Created Spring Index given Shear stress in Spring
Go
Created Total Number of Coils given Solid Length of Spring
Go
1 More Helical Springs Calculators
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Created Bending Moment applied on Spring given Bending Stress
Go
Created Bending Stress in Spring
Go
Created Diameter of Spring Wire given Bending Stress in Spring
Go
Created Diameter of Spring Wire given Stiffness
Go
Created Mean Coil Diameter of Spring given Stiffness
Go
Created Modulus of Elasticity of Spring given Stiffness
Go
Created Number of Coils of Spring given Stiffness of Helical Torsion Spring
Go
Created Stiffness of Helical Torsion Spring
Go
Created Stress Concentration Factor given Bending Stress in Spring
Go
Created Helix Angle of Helical Gear given Actual and Virtual Number of Teeth
Go
Created Helix Angle of Helical Gear given Axial Pitch
Go
Created Helix Angle of Helical Gear given center to center distance between two Gears
Go
Created Helix angle of Helical Gear given Normal Circular Pitch
Go
Created Helix Angle of Helical Gear given Normal Module
Go
Created Helix Angle of Helical Gear given Pitch Circle Diameter
Go
Created Helix Angle of Helical Gear given Pressure Angle
Go
Created Helix Angle of Helical Gear given Radius of Curvature at Point
Go
Created Helix Angle of Helical Gear given Virtual Number of Teeth
Go
Verified Current-1 given Current-2 (H-parameter)
Go
Verified Current-1 given H11 Parameter (H-parameter)
Go
Verified Current-1 given H21 Parameter (H-parameter)
Go
Verified Current-1 given Voltage-1 (H-parameter)
Go
Verified Current-2 (H-parameter)
Go
Verified Current-2 given H21 Parameter (H-parameter)
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Verified Current-2 given H22 Parameter (H-parameter)
Go
Verified h11 Parameter (H-parameter)
Go
Verified h11 Parameter given Voltage-1 (H-parameter)
Go
Verified h12 Parameter (H-parameter)
Go
Verified h12 Parameter given Voltage-1 (H-parameter)
Go
Verified h21 Parameter (H-parameter)
Go
Verified h21 Parameter given Current-2 (H-parameter)
Go
Verified h22 Parameter (H-parameter)
Go
Verified h22 Parameter given Current-2 (H-parameter)
Go
Verified Voltage-1 (H-parameter)
Go
Verified Voltage-1 given H11 Parameter (H-parameter)
Go
Verified Voltage-1 given H12 Parameter (H-parameter)
Go
Verified Voltage-2 given Current-2 (H-parameter)
Go
Verified Voltage-2 given H12 Parameter (H-parameter)
Go
Verified Voltage-2 given H22 Parameter (H-parameter)
Go
Verified Voltage-2 given Voltage-1 (H-parameter)
Go
Created Buoyancy Force
Go
Created Distance between Buoyancy Point and Center of Gravity given Metacenter Height
Go
Created Experimental determination of Metacentric height
Go
Created Metacentric Height given Moment of Inertia
Go
Created Moment of Inertia of Waterline Area using Metacentric Height
Go
Created Radius of Gyration given Time Period of Rolling
Go
Created Surface Area given Surface Tension
Go
Created Surface Energy given Surface Tension
Go
Created Surface Tension given Surface Energy and Area
Go
Created Theoretical Velocity for Pitot Tube
Go
Created Volume of Liquid Displaced given Metacentric Height
Go
Created Volume of Submerged Object given Buoyancy Force
Go
7 More Hydrostatic Fluid Calculators
Go
Created Degree of Freedom given Molar Internal Energy of Ideal Gas
Go
Created Isothermal Compression of Ideal Gas
Go
Created Molar Internal Energy of Ideal Gas
Go
Created Molar Internal Energy of Ideal Gas given Boltzmann Constant
Go
Created Number of Moles given Internal Energy of Ideal Gas
Go
Created Temperature of Ideal Gas given its Internal Energy
Go
2 More Ideal Gas Calculators
Go
Verified Fault Impedance using b-phase Current (LLF)
Go
Verified Fault Impedance using c-phase Current (LLF)
Go
1 More Impedance Calculators
Go
Verified Admittance using B Parameter (LTL)
Go
Verified Admittance using Characteristic Impedance (LTL)
Go
Verified Admittance using D Parameter (LTL)
Go
Verified Admittance using Propagation Constant (LTL)
Go
Verified Capacitance using Surge Impedance (LTL)
Go
Verified Characteristic Impedance (LTL)
Go
Verified Characteristic Impedance using B Parameter (LTL)
Go
Verified Characteristic Impedance using C Parameter (LTL)
Go
Verified Characteristic Impedance using Sending End Current (LTL)
Go
Verified Characteristic Impedance using Sending End Voltage (LTL)
Go
Verified Impedance using A Parameter (LTL)
Go
Verified Impedance using C Parameter (LTL)
Go
Verified Impedance using Characteristic Impedance (LTL)
Go
Verified Impedance using Propagation Constant (LTL)
Go
Verified Inductance using Surge Impedance (LTL)
Go
Verified Surge Impedance (LTL)
Go
2 More Impedance & Admittance Calculators
Go
Verified Impedance-1 for Transmitted Coefficient of Current-3 (line PL)
Go
Verified Impedance-1 using Incident Current and Voltage (line PL)
Go
Verified Impedance-1 using Reflected Coefficient of Current (line PL)
Go
Verified Impedance-1 using Reflected Coefficient of Voltage (line PL)
Go
Verified Impedance-1 using Transmitted Coefficient of Current-2 (line PL)
Go
Verified Impedance-1 using Transmitted Coefficient of Current-3 (line PL)
Go
Verified Impedance-1 using Transmitted Coefficient of Voltage (line PL)
Go
Verified Impedance-1 using Transmitted Voltage (line PL)
Go
Verified Impedance-2 for Transmitted Coefficient of Current-2 (line PL)
Go
Verified Impedance-2 using Reflected Coefficient of Current (line PL)
Go
Verified Impedance-2 using Reflected Coefficient of Voltage (line PL)
Go
Verified Impedance-2 using Transmitted Current-2 (line PL)
Go
Verified Impedance-3 for Transmitted Coefficient of Current-3 (line PL)
Go
Verified Impedance-3 using Transmitted Current-3 (line PL)
Go
Verified Impedance-3 using Transmitted Voltage (line PL)
Go
9 More Impedance-1,2 & 3 Calculators
Go
Verified Characteristic Impedance for Incident Waves
Go
Verified Incident Current for Incident Wave
Go
Verified Incident Voltage of Incident Wave
Go
Verified Incident Voltage using Reflected and Transmitted Voltage
Go
1 More Incident Wave Calculators
Go
Created Pressure Inside Liquid Drop
Go
Created Pressure Inside Soap Bubble
Go
3 More Inside Pressure Calculators
Go
Created Angle of Wrap given Belt Tension in Tight Side
Go
Created Belt Tension in Loose Side of Belt given Tension in Tight Side
Go
Created Belt tension in tight side
Go
Created Center Distance from Small Pulley to Big Pulley given Wrap Angle of Big Pulley
Go
Created Center Distance from Small Pulley to Big Pulley given Wrap Angle of Small Pulley
Go
Created Coefficient of Friction in between Surfaces given Belt Tension in Tight Side
Go
Created Diameter of Big Pulley given Wrap Angle for Big Pulley
Go
Created Diameter of Big Pulley given Wrap Angle of Small Pulley
Go
Created Diameter of Small Pulley given Wrap Angle of Big Pulley
Go
Created Diameter of Small Pulley given Wrap Angle of Small Pulley
Go
Created Length of Belt
Go
Created Mass per unit length of belt
Go
Created Velocity of belt given tension of belt in tight side
Go
Created Wrap Angle for Big Pulley
Go
Created Wrap Angle for Small Pulley
Go
Verified A' Parameter (A'B'C'D'-parameter)
Go
Verified A' Parameter given Voltage-2 (A'B'C'D'-parameter)
Go
Verified B' Parameter (A'B'C'D'-parameter)
Go
Verified B' Parameter given Voltage-2 (A'B'C'D'-parameter)
Go
Verified C' Parameter (A'B'C'D'-parameter)
Go
Verified C' Parameter given Current-2 (A'B'C'D'-parameter)
Go
Verified Current-1 given B' Parameter (A'B'C'D'-parameter)
Go
Verified Current-1 given Current-2 (A'B'C'D'-parameter)
Go
Verified Current-1 given D' Parameter (A'B'C'D'-parameter)
Go
Verified Current-1 given Voltage-2 (A'B'C'D'-parameter)
Go
Verified Current-2 (A'B'C'D'-parameter)
Go
Verified Current-2 given C' Parameter (A'B'C'D'-parameter)
Go
Verified Current-2 given D' Parameter (A'B'C'D'-parameter)
Go
Verified D' Parameter (A'B'C'D'-parameter)
Go
Verified D' Parameter given Current-2 (A'B'C'D'-parameter)
Go
Verified Voltage-1 given A' Parameter (A'B'C'D'-parameter)
Go
Verified Voltage-1 given C' Parameter (A'B'C'D'-parameter)
Go
Verified Voltage-1 given Current-2 (A'B'C'D'-parameter)
Go
Verified Voltage-1 given Voltage-2 (A'B'C'D'-parameter)
Go
Verified Voltage-2 (A'B'C'D'-parameter)
Go
Verified Voltage-2 given A' Parameter (A'B'C'D'-parameter)
Go
Verified Voltage-2 given B' Parameter (A'B'C'D'-parameter)
Go
Verified Latent cooling load from ventilation air
Go
Verified Latent Heat Gain per person using Latent Heat Gain from people
Go
1 More Latent Cooling Load and Heat Gain Calculators
Go
Verified Horizontal Subgrade Reaction Coefficient given Characteristic Pile Length
Go
Verified Pile Stiffness given Characteristic Pile Length for Laterally Loaded Piles
Go
5 More Laterally Loaded Vertical Piles Calculators
Go
Created Length of Cantilever given Bending Stress in Plate
Go
Created Length of Cantilever given Bending Stress in Plate of Extra Full Length
Go
Created Length of Cantilever given Bending Stress on Graduated Length Leaves
Go
Created Length of Cantilever given Deflection at Load Point of Graduated length leaves
Go
Verified Incident Voltage using Reflected Voltage (Line OC)
Go
Verified Reflected Voltage (Line OC)
Go
2 More Line Is Open Circuited Calculators
Go
Verified Characteristic Impedance (Line SC)
Go
Verified Incident Voltage using Transmitted Voltage (Line SC)
Go
Verified Reflected Current (Line SC)
Go
3 More Line Is Short Circuited Calculators
Go
Verified Line Losses (1-phase 2-wire Mid-point Earthed)
Go
Verified Line Losses (1-Phase 2-Wire US)
Go
Verified Line Losses using Load Current (1-Phase 2-Wire US)
Go
Verified Line Losses using Resistance (1-Phase 2-Wire US)
Go
Verified Line Losses using Volume of Conductor Material (1-Phase 2-Wire US)
Go
2 More Line Parameters Calculators
Go
Verified Impedance (STL)
Go
Verified Resistance using Transmission Efficiency (STL)
Go
Verified Transmission Efficiency (STL)
Go
Verified Voltage Regulation (STL)
Go
4 More Line Parameters Calculators
Go
Verified A Parameter (LTL)
Go
Verified B Parameter (LTL)
Go
Verified D Parameter (LTL)
Go
Verified Length using A Parameter (LTL)
Go
Verified Length using D Parameter (LTL)
Go
Verified Propagation Constant (LTL)
Go
Verified Propagation Constant using C Parameter (LTL)
Go
Verified Propagation Constant using D Parameter (LTL)
Go
5 More Line Parameters Calculators
Go
Verified Incident Current using Transmitted Current-3 and 2 (line PL)
Go
Verified Incident Voltage using Impedance-1 (line PL)
Go
Verified Incident Voltage using Transmitted Voltage (line PL)
Go
Verified Reflected Current using Impedance-1 (line PL)
Go
Verified Reflected Current using Transmitted Current-3 and 2 (line PL)
Go
Verified Transmitted Coefficient of Voltage (line PL)
Go
Verified Transmitted Voltage using Incident Voltage (line PL)
Go
Verified Transmitted Voltage using Transmitted Current-2 (line PL)
Go
Verified Transmitted Voltage using Transmitted Current-3 (line PL)
Go
14 More Line With Parallel Loads Calculators
Go
Created Angle of Jet given Maximum Vertical Elevation
Go
Created Angle of Jet given Time of Flight of Liquid Jet
Go
Created Angle of Jet given Time to Reach Highest Point
Go
Created Friction velocity
Go
Created Initial Velocity given Time of Flight of Liquid Jet
Go
Created Initial Velocity given Time to Reach Highest Point of Liquid
Go
Created Initial Velocity of Liquid Jet given Maximum Vertical Elevation
Go
Created Maximum Vertical Elevation of Jet Profile
Go
Created Mean Velocity given Frictional Velocity
Go
Created Time of Flight of Jet
Go
Created Variation of y with x in Free Liquid Jet
Go
1 More Liquid Jet Calculators
Go
Verified A Parameter (LEC)
Go
Verified Admittance using A Parameter (LEC)
Go
1 More Load End Capacitance Calculators
Go
Verified Incident Current using Reflected Current (Load OC)
Go
Verified Incident Voltage using Transmitted Voltage (Load OC)
Go
Verified Reflected Current (Load OC)
Go
Verified Transmitted Current (Load OC)
Go
1 More Load IS Open Circuited Calculators
Go
Created Inner Diameter of Boiler given Thickness of Welded Boiler Shell
Go
Created Internal Pressure in Boiler given Thickness of Welded Boiler Shell
Go
Created Tensile Stress in Boiler Butt Weld given Thickness of Boiler Shell
Go
Created Thickness of Welded Boiler Shell given Stress in Weld
Go
Verified Kf of Series DC Generator
Go
Verified Kf of Series DC Generator given Torque
Go
Verified Km of Series Generator
Go
Verified Km of Series Generator using Angular Speed
Go
Verified Km of Series Generator using Armature Current
Go
Verified Km of Series Generator using Terminal Voltage
Go
Verified Km of Series Generator using Torque
Go
Created Power Transmitted
Go
Created Thickness of Cotter Joint
Go
17 More Machine Design Calculators
Go
Verified Depth of Cut in Slab Milling using Tool Engagement Angle
Go
Verified Energy per Unit Material Removal given Efficiency of Motor Drive System
Go
Verified Length of Cut using Machining Time
Go
Verified Machining Power using Overall Efficiency
Go
Verified Mean Cutting Speed
Go
Verified Minimum Length of Approach required in Face Milling
Go
Verified Minimum Length of Approach required in Slab Milling
Go
Verified Overall Efficiency of Machine Tool and Motor Drive System
Go
Verified Power required for Machining Operation
Go
Verified Tool Engagement Angle in Slab Milling using Depth of Cut
Go
6 More Machine tools and machine operations Calculators
Go
Verified Depth of cut given Machining time for maximum power
Go
Verified Diameter of workpiece terms of Machining time for maximum power
Go
Verified Length of Workpiece given Machining time for maximum power
Go
Verified Volume of material to be removed given Machining time for maximum power
Go
20 More Machining Calculators
Go
Verified Machining Time for Drilling Operation
Go
Verified Machining Time for Milling Operation
Go
Verified Machining Time for Shaping Operation
Go
Verified Machining Time for Turning Operation
Go
4 More Machining Time Calculators
Go
Verified Machining time for maximum power in Turning
Go
5 More Machining Time Calculators
Go
Verified Average Material Removal Rate given Depth of Cut
Go
Verified Average Material Removal Rate given Depth of Cut for Boring Operation
Go
Verified Average Material Removal Rate using Uncut Chip Cross-Section Area
Go
Verified Material Removal Rate during Drilling Operation
Go
Verified Material Removal Rate during Drilling Operation using Feed
Go
Verified Material Removal Rate during Drilling Operation when Enlarging Existing Hole
Go
3 More Material Removal Rate Calculators
Go
Created Actual Power Transmitted given Power Transmitted by Flat for Design Purpose
Go
Created Belt Tension in Loose Side of Belt given Initial Tension in Belt
Go
Created Belt Tension in Tight Side of Belt given Initial Tension in Belt
Go
Created Belt Tension in Tight Side of Belt given Tension due to Centrifugal Force
Go
Created Belt Velocity given Tension in Belt Due to Centrifugal Force
Go
Created Initial Tension in Belt Drive
Go
Created Initial Tension in Belt given Velocity of Belt for Maximum Power Transmission
Go
Created Load Correction Factor given Power Transmitted by Flat Belt for Design Purpose
Go
Created Mass of One Meter Length of Belt given Maximum Permissible Tensile Stress of Belt
Go
Created Mass of One Meter Length of Belt given Tension in Belt Due to Centrifugal Force
Go
Created Mass of One Meter Length of Belt given Velocity for Maximum Power Transmission
Go
Created Maximum Belt Tension
Go
Created Maximum Belt Tension given Tension Due to Centrifugal Force
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Created Maximum Permissible Tensile Stress of Belt Material
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Created Optimum Velocity of Belt for Maximum Power Transmission
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Created Power Transmitted by Flat Belt for Design Purpose
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Created Tension in Belt Due to Centrifugal Force
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Created Tension in Belt Due to Centrifugal Force given Permissible Tensile Stress of Belt Material
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Created Thickness of Belt given Maximum Belt Tension
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Created Velocity of Belt for Maximum Power Transmission given Maximum Permissible tensile Stress
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Created Width of Belt given Maximum Belt Tension
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Created Diameter of Shaft given Permissible Value of Maximum Principle Stress
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Created Factor of Safety given Permissible Value of Maximum Principle Stress
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Created Permissible Value of Maximum Principle Stress
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Created Permissible Value of Maximum Principle Stress using Factor of Safety
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Created Yield Stress in Shear given Permissible Value of Maximum Principle Stress
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Created Bending Moment given Maximum Shear Stress
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Created Diameter of Shaft given Principle Shear Stress Maximum Shear Stress Theory
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Created Equivalent Bending Moment given Torsional Moment
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Created Factor of Safety given Permissible Value of Maximum Shear Stress
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Created Maximum Shear Stress in shafts
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Created Permissible Value of Maximum Shear Stress
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Created Torsional Moment given Equivalent Bending Moment
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Created Torsional Moment given Maximum Shear Stress
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Created Yield Strength in Shear maximum shear Stress theory
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Verified Area of Shear
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Verified Cutting Ratio
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Verified Cutting Speed using Rate of Energy Consumption during Machining
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Verified Density of Workpiece given Thickness of Chip
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Verified Metal Removal Rate given Specific Cutting Energy
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Verified Plowing Force using Force required to remove Chip
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Verified Rate of Energy Consumption during Machining
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Verified Rate of Energy Consumption during Machining given Specific Cutting Energy
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Verified Shear Strength of Material on Shear Plane
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Verified Specific cutting energy in machining
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Verified Total Shear force by tool
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2 More Mechanics of Metal Cutting Calculators
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Created Dynamic viscosity of fluids
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5 More Miscellaneous Properties Calculators
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Created Modulus of Elasticity of Concrete in SI Units
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Created Modulus of Elasticity of Concrete in USCS Units
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Created Modulus of Elasticity of Normal Weight and Density Concrete in SI Units
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Created Modulus of Elasticity of Normal Weight and Density Concrete in USCS Units
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2 More Modulus of Elasticity Calculators
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Created Bending Stress in Plate Graduated-length Leaves
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Created Bending Stress on Graduated Length Leaves
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Created Deflection at Load Point Graduated Length Leaves
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Created Modulus of Elasticity of leaf given Deflection at Load Point Graduated Length Leaves
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Verified Differential Input Signal for Non-Inverting Configuration
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19 More N-channel enhancement-type MOSFET Calculators
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Verified Negative Sequence Impedance using Negative Sequence Voltage (1OC)
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Verified Negative Sequence Voltage using Negative Sequence Impedance (1OC)
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3 More Negative Sequence Calculators
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Created Force Applied at End of Spring
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Created Force Applied at End of Spring given Pre-Load Required to Close Gap
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Created Initial Nip in Leaf Spring
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Created Initial Pre-Load Required to Close Gap
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Created Length of Cantilever given Initial Nip of Leaf Spring
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Created Modulus of Elasticity given Initial Nip of Spring
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Created Number of Full Length Leaves given Initial Pre-load Required to Close Gap
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Created Number of Graduated length leaves given Initial Pre-Load required to close gap
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Created Thickness of Each Leaf given Initial Nip of Leaf Spring
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Created Total Number of Leaves given Initial Nip of Leaf Spring
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Created Total Number of Leaves given Pre-Load Required to Close Gap
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Created Width of Each Leaf given Initial Nip of Leaf Spring
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Verified Load Current using Losses (Nominal pi-method)
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Verified Losses using Transmission Efficiency (Nominal pi-method)
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Verified Receiving End Angle using Transmission Efficiency (Nominal pi-method)
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Verified Receiving End Current using Sending End Power (Nominal pi-method)
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Verified Receiving End Voltage using Sending End Power (Nominal pi-method)
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Verified Receiving End Voltage using Transmission Efficiency (Nominal pi-method)
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13 More Nominal pi-method Calculators
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Created Shearing Unit Stress in Reinforced Concrete Beam
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Created Total Shear given Shearing Unit Stress in Reinforced Concrete Beam
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1 More Nominal Shear Stress Calculators
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Verified Capacitive Current (Nominal T-method)
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Verified Capacitive Voltage using Sending End Voltage (Nominal T-method)
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Verified Impedance using Capacitive Voltage (Nominal T-method)
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Verified Impedance using Sending End Voltage (Nominal T-method)
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Verified Losses using Sending End Power (Nominal T-method)
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Verified Receiving End Angle using Sending End Power (Nominal T-method)
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Verified Receiving End Current (Nominal T-method)
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Verified Receiving End Current using Losses (Nominal T-method)
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Verified Receiving End Current using Sending End Power (Nominal T-method)
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Verified Receiving End Voltage using Sending End Power (Nominal T-method)
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9 More Nominal T-method Calculators
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Created Number of Extra Full length leaves given Bending Stress on Graduated length leaves
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Created Number of Extra Full length leaves given Force applied at End of Spring
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Created Number of Extra Full Length Leaves given Force Taken by Graduated Length Leaves
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Created Number of Full Length Leaves given Bending Stress in Plate Extra Full Length
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Created Number of Graduated length leaves given Bending Stress in Plate
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Created Number of Graduated length leaves given Bending Stress on Graduated length leaves
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Created Number of Graduated length leaves given Deflection at Load Point Graduated-Length Leaves
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Created Number of Graduated length leaves given Force taken by Graduated length leaves
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Created Number of Teeth on first Gear given center to center distance between two Gears
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Created Number of Teeth on Gear given Pitch Circle Diameter
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Created Number of Teeth on Helical Gear given Speed Ratio for Helical Gears
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Created Number of Teeth on Pinion given Speed Ratio
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Created Number of Teeth on Second Helical Gear given center to center distance between two Gears
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Created Pitch Circle Diameter of Gear given Addendum Circle Diameter
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Created Pitch Circle Diameter of Gear given Dedendum Circle Diameter
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Created Number of Teeth given Maximum Roller Seating Angle
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Created Number of Teeth given Maximum Tooth Height above Pitch Polygon
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Created Number of Teeth given Minimum Roller Seating Angle
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Created Number of Teeth given Minimum Tooth Flank Radius
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Created Number of Teeth on Driven Sprocket given Velocity of Chain Drives
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Created Number of Teeth on Driving and Driven Sprockets given Average Chain Velocity
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Created Number of Teeth on Driving Sprocket given Velocity of Chain Drives
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Created Number of Teeth on Sprocket given Pitch Angle of Sprocket
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Created Number of Teeth on Sprocket given Pitch Circle Diameter
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Verified A-phase EMF using Zero Sequence Impedance (1OC)
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Verified Potential Difference between a-Phase using Positive Sequence Potential Difference (1OC)
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Verified Potential Difference between a-Phase using Zero Sequence Potential Difference (1OC)
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4 More One conductor open Calculators
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Verified Allowable Load in Parallel Fillet Weld per Unit Length
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Verified Force in Parallel Fillet Weld given Shear Stress
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Verified Leg of Parallel Fillet Weld given Shear Stress
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Verified Leg of Parallel Fillet Weld given Shear Stress and Weld Cut Angle
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Verified Leg of Parallel Fillet Weld given Throat of Weld
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Verified Length of Parallel Fillet Weld given Shear Stress
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Verified Length of Parallel Fillet Weld given Shear Stress and Weld Cut Angle
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Verified Maximum Shear Stress in Parallel Fillet Weld given Load
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Verified Shear Stress in Parallel Fillet Weld given Load
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Verified Shear Stress Parallel Fillet Weld
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Verified Tensile Force on Parallel Fillet Weld Plate given Shear Stress
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Verified Throat of Parallel Fillet Weld
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Created Width of Plane in Double Parallel Fillet Weld
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2 More Parallel Fillet Welds Calculators
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Created Permissible Compressive Stress of Plate Material given Crushing Resistance of Plates
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Created Permissible Shear Stress for Rivet for Single Shear
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Created Permissible Shear Stress for Rivet given Shear Resistance of Rivet Per Pitch Length
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Verified Permissible Tensile Stress of Plate given Tensile Resistance of Plate between two Rivets
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Verified Photon's Momentum using Wavelength
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7 More Photoelectric Effect Calculators
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Verified Distance Traveled
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23 More Physics Calculators
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Pipes (7)
Created Depth of Centroid given Total Hydrostatic Force
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Created Diameter of Pipe given Head Loss due to Laminar Flow
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Created Frictional Factor of Laminar flow
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Created Head loss due to Laminar Flow
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Created Head Loss using Efficiency of Hydraulic Transmission
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Created Length of Pipe given Head loss
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Created Viscous Force using Head loss Due to Laminar Flow
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5 More Pipes Calculators
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Created Pitch Circle Diameter of Gear given Radius of Curvature at Point
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Created Pitch Circle Diameter of Helical Gear
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Created Pitch Circular Diameter of Gear given Radius of Curvature
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Created Pitch Circular Diameter of Gear given Virtual Gear
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Created Pitch Circular Diameter of Gear given Virtual Number of Teeth
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Created Distance from Center of Drum to Pivoted Shoe
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Created Radius of Drum given Distance from Center of Drum to Pivoted Shoe
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Created Diameter of Pitch Circle of Sprocket given Minimum Linear Velocity of Sprocket
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Created Linear Velocity of Sprocket
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Created Minimum Linear Velocity of Sprocket
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Created Pitch Circle Diameter of Sprocket given Linear Velocity of Sprocket
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Created Speed of Rotation of Shaft given Linear Velocity of Sprocket
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Created Speed of Rotation of Shaft given Minimum Linear Velocity of Sprocket
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Verified Positive Sequence Potential difference using Potential difference between a-Phase (1OC)
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Verified Positive Sequence Voltage using Positive Sequence Impedance
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4 More Positive Sequence Calculators
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Verified Receiving End Angle using Receiving End Power (STL)
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Verified Receiving End Angle using Transmission Efficiency (STL)
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Verified Receiving End Power (STL)
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Verified Sending End Angle using Sending End Power (STL)
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Verified Sending End Power (STL)
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4 More Power & Phase Difference Calculators
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Verified Power Factor using Area of X-section(1-phase 3-wire OS)
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Verified Power Factor using Line Losses (1-Phase 3-Wire OS)
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Verified Power Factor using Load Current (1-Phase 3-Wire OS)
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Verified Power Factor using Volume of Conductor Material (1-phase 3-wire OS)
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Verified Power Transmitted using Area of X-section(1-phase 3-wire OS)
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Verified Power Transmitted using Line Losses (1-Phase 3-Wire OS)
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Verified Power Transmitted using Load Current (1-Phase 3-Wire OS)
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Verified Power Transmitted using Volume of Conductor Material (1-phase 3-wire OS)
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Verified Power Factor using Area of X-section(single phase two wire OS)
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Verified Power Factor using Line Losses (single Phase two Wire OS)
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Verified Power Factor using Load Current (single Phase two Wire OS)
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Verified Power Transmitted using Area of X-section(single phase two wire OS)
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Verified Power Transmitted using Line Losses (single Phase two Wire OS)
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Verified Power Transmitted using Load Current (single Phase two Wire OS)
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Verified Power Factor using Area of X-section(single-Phase two-Wire Mid-point Earthed OS)
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Verified Power Factor using Line Losses (single-Phase two-Wire Mid-Point OS)
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Verified Power Factor using Load Current (single-Phase two-Wire Mid-Point OS)
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Verified Power Transmitted using Area of X-section(single-Phase two-Wire Mid-point Earthed OS)
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Verified Power Transmitted using Line Losses (single-Phase two-Wire Mid-Point OS)
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Verified Power Transmitted using Load Current (single-Phase two-Wire Mid-Point OS)
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Verified Power Factor using Area of X-Section (1-Phase 2-Wire US)
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Verified Power Factor using Load Current (1-Phase 2-Wire US)
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Verified Power Transmitted using Constant (1-Phase 2-Wire US)
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Verified Power Transmitted using Line Losses (1-Phase 2-Wire US)
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Verified Power Transmitted using Load Current (1-Phase 2-Wire US)
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Verified Power Transmitted using Volume of Conductor Material (1-Phase 2-Wire US)
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6 More Power & Power Factor Calculators
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Verified Power Factor using Load Current (1-phase 2-wire Mid-point Earthed)
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Verified Power Transmitted using Area of X-Section (1-phase 2-wire Mid-point Earthed)
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Verified Power Transmitted using Line Losses (1-phase 2-wire Mid-point Earthed)
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Verified Power Transmitted using Load Current (1-phase 2-wire Mid-point Earthed)
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2 More Power & Power Factor Calculators
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Verified Angle of PF using Area of X-section(3-phase 4-wire OS)
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Verified Angle of PF using Load Current (3-phase 4-wire OS)
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Verified Angle of PF using Volume of Conductor Material (3-phase 4-wire OS)
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Verified Power Factor using Area of X-section(3-phase 4-wire OS)
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Verified Power Factor using Load Current (3-phase 4-wire OS)
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Verified Power Factor using Volume of Conductor Material (3-phase 4-wire OS)
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Verified Power Transmitted using Load Current (3-phase 4-wire OS)
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Verified Power Transmitted using Volume of Conductor Material (3-phase 4-wire OS)
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Verified Power Transmitted(3-Phase 4-Wire OS)
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1 More Power & Power Factor Calculators
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Verified Power Factor using Area of X-section(2-phase 3-wire OS)
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Verified Power Factor using Line Losses (2-Phase 3-Wire OS)
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Verified Power Factor using Volume of Conductor Material (2-phase 3-wire OS)
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Verified Power Transmitted using Area of X-Section(2-phase 3-wire OS)
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Verified Power Transmitted using Volume of Conductor Material (2-phase 3-wire OS)
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Verified Transmitted Power using Line Losses (2-Phase 3-Wire OS)
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4 More Power & Power Factor Calculators
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Verified Power Factor using Area of X-section(2-phase 4-wire OS)
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Verified Power Factor using Line Losses (2-Phase 4-Wire OS)
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Verified Power Factor using Load Current (2-Phase 4-Wire OS)
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Verified Power Transmitted using Area of X-Section(2-phase 4-wire OS)
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Verified Power Transmitted using Line Losses (2-Phase 4-Wire OS)
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Verified Power Transmitted using Load Current (2-Phase 4-Wire OS)
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1 More Power & Power Factor Calculators
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Verified Power Factor using Line Losses (2-Phase 3-Wire US)
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Verified Power Factor using Volume of Conductor Material (2-phase 3-wire US)
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Verified Power Transmitted using Current in Each Outer (2-Phase 3-Wire US)
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Verified Power Transmitted using Current in Neutral Wire (2-Phase 3-Wire US)
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Verified Power Transmitted using Volume of Conductor Material (2-phase 3-wire US)
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Verified Transmitted Power using Line Losses (2-Phase 3-Wire US)
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2 More Power & Power Factor Calculators
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Verified Angle using Area of X-Section (3-phase 3-wire US)
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Verified Power Factor using Area of X-Section (3-phase 3-wire US)
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Verified Power Factor using Volume of Conductor Material (3-phase 3-wire US)
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Verified Power Transmitted per Phase (3-phase 3-wire US)
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Verified Power Transmitted using Area of X-Section (3-phase 3-wire US)
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Verified Power Transmitted using Load Current Per Phase (3-phase 3-wire US)
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Verified Power Transmitted using Volume of Conductor Material (3-phase 3-wire US)
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3 More Power & Power Factor Calculators
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Verified Power Factor using Area of X-Section (3-phase 4-wire US)
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Verified Power Factor using Line Losses (3-phase 4-wire US)
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Verified Power Factor using Load Current (3-phase 4-wire US)
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Verified Power Factor using Volume of Conductor Material (3-phase 4-wire US)
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Verified Power Transmitted using Area of X-Section (3-phase 4-wire US)
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Verified Power Transmitted using Line Losses (3-phase 4-wire US)
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Verified Power Transmitted using Load Current (3-phase 4-wire US)
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Verified Power Transmitted using Volume of Conductor Material (3-phase 4-wire US)
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Verified RMS Voltage using Area of X-Section (3-phase 4-wire US)
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Verified RMS Voltage using Line Losses (3-phase 4-wire US)
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Verified RMS Voltage using Load Current (3-phase 4-wire US)
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Verified RMS Voltage using Volume of Conductor Material (3-phase 4-wire US)
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1 More Power & Power Factor Calculators
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Verified 3-Phase Mechanical Power of Synchronous Motor
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Verified Input Power of Synchronous Motor
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Verified Mechanical Power of Synchronous Motor
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Verified Mechanical Power of Synchronous Motor given Gross Torque
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Verified Mechanical Power of Synchronous Motor given Input Power
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Verified Output Power for Synchronous Motor
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Verified Power Factor of Synchronous Motor given 3-phase Mechanical Power
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Verified Power Factor of Synchronous Motor given Input Power
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2 More Power & Power Factor Calculators
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Verified Power Transmitted using K(Two-Wire One Conductor Earthed)
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Verified Transmitted Power using Line Losses(Two-Wire One Conductor Earthed)
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Verified Transmitted Power using Load Current(Two-Wire One Conductor Earthed)
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2 More Power & Power Factor Calculators
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Verified Angle of PF using Area of X-section(3-phase 3-wire OS)
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Verified Power Transmitted(3-Phase 3-Wire OS)
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5 More Power & Power Factor Calculators
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Verified Power Factor using Area of X-section (1-phase 3-wire US)
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Verified Power Factor using Line Losses (1-phase 3-wire US)
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Verified Power Transmitted using Area of X-section (1-phase 3-wire US)
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Verified Power Transmitted using Line Losses (1-phase 3-wire US)
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5 More Power & Power Factor Calculators
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Verified Power Transmitted using Area of X-Section (2-wire Mid-point earthed DC US)
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Verified Power Transmitted using Load Current (2-wire Mid-point DC US)
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Verified Power Transmitted using Volume of Conductor Material (2-wire Mid-point DC US)
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Verified Power Factor using Area of X-Section (2-phase 4-wire US)
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Verified Power Factor using Line Losses (2-phase 4-wire US)
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Verified Power Factor using Load Current (2-phase 4-wire US)
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Verified Power Transmitted using Area of X-Section (2-phase 4-wire US)
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Verified Power Transmitted using Line Losses (2-phase 4-wire US)
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2 More Power & Power Factor Calculators
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Verified Power Transmitted using Area of X-Section (DC Three-Wire US)
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Verified Power Transmitted using Line Losses (DC Three-Wire US)
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1 More Power & Power Factor Calculators
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Verified Power Transmitted using Area of X-Section (DC Two-Wire US)
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Verified Power Transmitted using Line Losses (DC Two-Wire US)
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Verified Power Transmitted using Area of X-Section(DC 3-wire)
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5 More Power & Power Factor Calculators
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Verified Air Gap Power of Series Generator using Design Coefficient
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Verified Converted Power of Series DC Generator
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Verified Converted Power of Series DC Generator given Input Power
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Verified Core Losses of Series DC Generator given Converted Power
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Verified Load Power of Series DC Generator
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Verified Mechanical Losses of Series DC Generator given Converted Power
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Verified Power Generated by Series DC Generator
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Verified Stray Losses of Series DC Generator given Converted Power
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2 More Power and Losses Calculators
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Verified Power available for Machining given Machining time for maximum power
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1 More Power available Calculators
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Created Allowable Tension in Chain given Power Transmitted by Roller Chain
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Created Average Velocity of Chain given Power Transmitted by Roller Chain
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Created Multiple Strand Factor given Power Rating of Chain
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Created Power Rating of Chain
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Created Power to be Transmitted given Power Rating of Chain
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Created Power Transmitted by Roller Chain
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Created Service Factor given Power Rating of Chain
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Created Tooth Correction Factor given Power Rating of Chain
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Created Coefficient of Friction for Screw Thread given Efficiency of Square Threaded Screw
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Created Core Diameter of Power Screw
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Created Efficiency of Square Threaded Power Screw
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Verified External Torque required to raise Load given Efficiency
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Created Helix Angle of Thread
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Created Lead of Screw given Helix angle
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Verified Lead of Screw given Overall Efficiency
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Verified Load on Screw given Overall Efficiency
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Created Maximum Efficiency of Square Threaded Screw
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Created Mean Diameter of Power Screw
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Created Mean diameter of Screw given Helix Angle
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Created Nominal Diameter of Power Screw
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Created Nominal Diameter of Power Screw given Mean Diameter
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Verified Overall Efficiency of Power Screw
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Created Pitch of Power Screw
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Created Pitch of Screw given Mean Diameter
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Created Absolute Pressure at Height h
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Created Angle of Inclined Manometer given Pressure at Point
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Created Area of Surface Wetted given Center of Pressure
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Created Bulk Modulus given Velocity of Pressure Wave
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Created Center of pressure
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Created Density of Liquid given Dynamic Pressure
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Created Depth of Centroid given Center of Pressure
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Created Diameter of Droplet given Change in Pressure
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Created Diameter of Soap Bubble
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Created Differential pressure between two points
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Created Differential pressure-Differential Manometer
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Created Dynamic Pressure head-pitot tube
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Created Dynamic Pressure of Fluid
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Created Height of Fluid 1 given Differential Pressure between Two Points
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Created Height of Fluid 2 given Differential Pressure between Two Points
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Created Height of Liquid given its Absolute Pressure
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Created Length of Inclined Manometer
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Created Mass Density given Velocity of Pressure Wave
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Created Moment of Inertia of Centroid given Center of Pressure
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Created Pressure using inclined Manometer
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Created Pressure Wave Velocity in Fluids
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Created Surface Tension of Liquid Drop given Change in Pressure
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Created Surface Tension of Soap Bubble
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Created Velocity of Fluid given Dynamic Pressure
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1 More Pressure Relations Calculators
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Created Thermal Expansion
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12 More Production of Power from Heat Calculators
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Created Chain Pitch given Maximum Tooth Height above Pitch Polygon
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Created Maximum Roller Seating Angle
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Created Maximum Tooth Height above Pitch Polygon
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Created Minimum Roller Seating Angle
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Created Minimum Roller Seating Radius
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Created Minimum Tooth Flank Radius
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Created Minimum Tooth Height above Pitch Polygon
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Created Pitch Angle of Sprocket
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Created Pitch Circle Diameter given Average Velocity of Chain
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Created Pitch Circle Diameter given Pitch
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Created Pitch Circle Diameter given Root Diameter of Sprocket Wheel
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Created Pitch Circle Diameter given Top Diameter of Sprocket Wheel
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Created Roller Seating Radius given Roller Radius
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Created Roller Seating Radius given Root Diameter of Sprocket Wheel
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Created Root Diameter of Sprocket Wheel
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Created Tooth Flank Radius
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Created Top Diameter of Sprocket Wheel
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Verified Radiation energy emitted by black body per unit time and surface area
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7 More Radiation Calculators
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Created Radius of Curvature at Point on Helical Gear
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Created Radius of Curvature at Point on Virtual Gear
Go
Created Radius of Curvature of Virtual Gear given Pitch Circular Diameter
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Created Radius of Curvature of Virtual Gear given Virtual Number of Teeth
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