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Calculators Created by Rajat Vishwakarma
Rajat Vishwakarma
University Institute of Technology RGPV
(UIT - RGPV)
,
Bhopal
https://www.linkedin.com/in/vishwakarmarajat
388
Formulas Created
392
Formulas Verified
135
Across Categories
List of Calculators by Rajat Vishwakarma
Following is a combined list of all the calculators that have been created and verified by Rajat Vishwakarma. Rajat Vishwakarma has created 388 and verified 392 calculators across 135 different categories till date.
Abrasive Jet Machining (AJM)
(7)
Created
Density of abrasive particles
Go
Created
Empirical constant for AJM
Go
Created
Hardness of work material
Go
Created
Material removal rate
Go
Created
Mean diameter of abrasive particles
Go
Created
Number of abrasive particles impacting per unit time
Go
Created
Velocity of abrasive particles
Go
Absorptivity, Reflectivity and Transmissivity
(9)
Verified
Absorbed Radiation using Absorptivity and Incident Radiation
Go
Verified
Absorptivity
Go
Verified
Incident Radiation given Reflectivity and Reflected Radiation
Go
Verified
Incident Radiation using Absorptivity and Absorbed Energy
Go
Verified
Incident Radiation using Transmissivity and Transmitted Radiation
Go
Verified
Reflected Radiation given Reflectivity and Incident Radiation
Go
Verified
Reflectivity using Reflected Radiation and Incident Radiation
Go
Verified
Transmissivity given Transmitted Radiation and Incident Radiation
Go
Verified
Transmitted Radiation using Transmissivity and Incident Radiation
Go
9 More Absorptivity, Reflectivity and Transmissivity Calculators
Go
ACME Threads 29deg. included angle
(4)
Created
Diameter of measuring wires ACME threads
Go
Created
Micrometer measurement per reading acme threads
Go
Created
Pitch diameter acme threads
Go
Created
Pitch of screw acme threads
Go
Angular Distortion
(5)
Created
Angular change when there is maximum distortion of fillet welds
Go
Created
Angular Distortion at x of Fillet Welds
Go
Created
Length of span for maximum angular distortion of fillet welds
Go
Created
Maximum Angular Distortion of Fillet Welds
Go
Created
Rigidity of fillet welds
Go
Atmospheric and Solar Radiation
(6)
Verified
Diffuse solar radiation given total solar energy and direct radiation
Go
Verified
Effective surface temperature of sun given solar constant
Go
Verified
Mean distance between sun or star and earth or planet
Go
Verified
Radius of sun given total solar irradiance
Go
Verified
Total solar energy incident on unit area of horizontal surface on ground
Go
Verified
Total solar irradiance or solar constant
Go
Average power delivered per spark
(3)
Created
Average energy delivered per spark
Go
Created
Resistance of charging circuit from average power per spark
Go
Created
Voltage of power supply from average power per spark
Go
Bending Operation
(3)
Created
Length of Bent part in Bending Operation
Go
Created
Stock thickness to be used in bending operation
Go
Created
Width between contact Points during Bending
Go
Boiling
(10)
Verified
Critical heat flux to nucleate pool boiling
Go
Verified
Density of vapour given critical heat flux
Go
Verified
Emissivity given heat transfer coefficient by radiation
Go
Verified
Enthalpy of evaporation to nucleate pool boiling
Go
Verified
Heat flux to nucleate pool boiling
Go
Verified
Heat transfer coefficient by convection for stable film boiling
Go
Verified
Heat transfer coefficient by radiation
Go
Verified
Heat transfer coefficient for convection
Go
Verified
Heat transfer coefficient in film boiling
Go
Verified
Maximum heat flux to nucleate pool boiling
Go
2 More Boiling Calculators
Go
British association 47 and 1/2deg included angle
(4)
Created
Diameter of measuring wires British threads
Go
Created
Micrometer measurement per reading British threads
Go
Created
Pitch diameter British thread
Go
Created
pitch of screw British
Go
Butt Joints
(14)
Created
Cross-sectional area of weld for given transverse shrinkage in butt joints
Go
Created
Degree of restraint (Butt joints)
Go
Created
Depth of first V-groove for minimum distortion of Butt joint
Go
Created
Depth of last V-groove for minimum distortion of Butt joint
Go
Created
Depth of root face for minimum distortion of Butt joint
Go
Created
Metal Deposited in First Pass of Welding given Transverse Shrinkage
Go
Created
Plate thickness for given transverse shrinkage in butt joints
Go
Created
Root Opening given Transverse Shrinkage
Go
Created
Shrinkage of unrestrained joint from given shrinkage of restrained Butt joint
Go
Created
Total Metal Deposited in Weld given Total Transverse Shrinkage
Go
Created
Total transverse shrinkage during multi-pass welding of butt joint
Go
Created
Transverse Shrinkage in Butt Joints
Go
Created
Transverse Shrinkage in First Pass given Total Shrinkage
Go
Created
Transverse shrinkage of restrained joint
Go
Casting Yield
(4)
Created
Actual casting mass from casting yield
Go
Created
Casting yield
Go
Created
Casting yield in percentage
Go
Created
Total mass of metal poured in mould from casting yield
Go
Charging current for EDM
(5)
Created
Charging current in relaxation circuit
Go
Created
Power supply during charging
Go
Created
Resistance of charging circuit
Go
Created
Time constant from charging current
Go
Created
Time elapsed during charging
Go
Charging time
(5)
Created
Capacitance of circuit from charging time
Go
Created
Charging time
Go
Created
Charging time from minimum resistance
Go
Created
Inductance of circuit from charging time
Go
Created
Minimum resistance from charging time
Go
Charging voltage
(8)
Created
Capacitance of charging circuit of EDM
Go
Created
Charging voltage for maximum power of spark
Go
Created
Elapsed time during charging
Go
Created
Power supply for maximum power of spark
Go
Created
Resistance of charging circuit from time elapsed
Go
Created
Time constant for charging circuit of EDM
Go
Created
Voltage at any time t
Go
Created
voltage of supply power for EDM
Go
Choke Area
(7)
Created
Casting mass using Bernoulli's equation
Go
Created
Choke area using Bernoulli's equation
Go
Created
Composition factor from fluidity spiral length
Go
Created
Density of molten metal using Bernoulli's equation
Go
Created
Effective metal head for bottom gate
Go
Created
Effective metal head for parting gate
Go
Created
Pouring time using Bernoulli's equation
Go
Clearance fits
(6)
Created
Maximum Clearance
Go
Created
Maximum limit size of hole from maximum clearance
Go
Created
Maximum limit size of shaft from minimum clearance
Go
Created
Minimum clearance
Go
Created
Minimum limit size of hole from minimum clearance
Go
Created
Minimum limit size of shaft from maximum clearance
Go
Constant For The Machine
(4)
Verified
Constant for machine type b given Machining time for maximum power
Go
Verified
Constant for machine type b given Power available for Machining
Go
Verified
Constant for machine type given Machining time for maximum power
Go
Verified
Constant for machine type given Power available for Machining
Go
Convective Mass Transfer
(1)
Verified
Friction factor in internal flow
Go
18 More Convective Mass Transfer Calculators
Go
Core Diameter
(3)
Verified
Core Diameter of Bolt
Go
Verified
Core Diameter of Bolt given Nominal Diameter
Go
Verified
Core Diameter of Bolt given Pitch
Go
1 More Core Diameter Calculators
Go
Cores - Core Prints and Chaplets
(13)
Created
Buoyant force on cores
Go
Created
Buoyant force on cores from chaplet area
Go
Created
buoyant force on cylindrical cores placed horizontally
Go
Created
buoyant force on vertical cores
Go
Created
Chaplet area
Go
Created
Chaplet area from unsupported load
Go
Created
Density of core material
Go
Created
Density of molten metal
Go
Created
Empirical relation for max. permissible buoyancy force on given core print area
Go
Created
Empirical relation for minimum core print area
Go
Created
Metallostatic forces acting on Moulding Flasks
Go
Created
Unsupported load for cores
Go
Created
Volume of core
Go
Cost
(2)
Verified
Cost amortized over years given Total rate for Machining and Operator
Go
Verified
Cost of Machine tool given initial weight of workpiece
Go
3 More Cost Calculators
Go
Criterion for arcing
(4)
Created
Maximum spark current to be maintained indefinitely
Go
Created
Power supply for maintaining maximum sparking current
Go
Created
Resistance of circuit using arcing criteria
Go
Created
Spark discharge voltage at maximum spark current
Go
Curvilinear motion
(1)
Verified
Average angular velocity
Go
6 More Curvilinear motion Calculators
Go
Cutting rate in mm/min
(6)
Created
Area of laser beam at focal point
Go
Created
Constant dependent of material
Go
Created
Cutting rate in mm per min
Go
Created
Laser power incident on surface
Go
Created
Thickness of material
Go
Created
Vaporisation energy of material
Go
Design of Flywheel
(11)
Verified
Coefficient of Fluctuation of Flywheel Energy given Maximum Fluctuation of Flywheel Energy
Go
Verified
Mass Density of Flywheel Disk
Go
Verified
Maximum Fluctuation of Flywheel Energy given Coefficient of Fluctuation of Enaergy
Go
Verified
Mean Torque of Flywheel for Four Stroke Engine
Go
Verified
Mean Torque of Flywheel for Two Stroke Engine
Go
Verified
Moment of Inertia of Flywheel Disk
Go
Verified
Outer Radius of Flywheel Disk
Go
Verified
Thickness of Flywheel Disk
Go
Verified
Work Done per Cycle for Engine connected to Flywheel
Go
Verified
Work Done per Cycle for Four Stroke Engine connected to Flywheel
Go
Verified
Work Done per Cycle for Two Stroke Engine connected to Flywheel
Go
10 More Design of Flywheel Calculators
Go
Design of Rolling Contact Bearing
(9)
Verified
Axial Thrust Load on Bearing given Race Rotation Factor
Go
Verified
Axial Thrust Load on Bearing given Thrust Factor
Go
Verified
Race Rotation Factor of Roller Contact Bearing
Go
Verified
Radial Factor of Roller Contact Bearing
Go
Verified
Radial Factor of Roller Contact Bearing given Race Rotation Factor
Go
Verified
Radial Load on Bearing
Go
Verified
Radial Load on Bearing given Race Rotation Factor
Go
Verified
Thrust factor of Bearing
Go
Verified
Thrust factor of Bearing given Race Rotation Factor
Go
12 More Design of Rolling Contact Bearing Calculators
Go
Design of Threaded Fasteners
(6)
Verified
Factor of Safety in Terms of Tensile Yield Strength of Threaded Fastner
Go
Verified
Number of Bolts required
Go
Verified
Radius of Root of Threads
Go
Verified
Tensile Stress Area of Threaded fastener
Go
Verified
Tensile Yield Strength of Bolt
Go
Verified
Ultimate Tensile Strength of Bolt
Go
Diffuse Radiation
(11)
Verified
Emissive Power given Radiation Intensity for Diffusely Emitting Surface
Go
Verified
Emissive power of diffusely emitted black body radiation given radiation intensity
Go
Verified
Intensity of diffusely emitted radiation given radiosity and reflected radiation
Go
Verified
Intensity of diffusely incident radiation given irradiation
Go
Verified
Intensity of diffusely reflected radiation given radiosity and emitted radiation
Go
Verified
Intensity of radiation emitted by black body at absolute temperature
Go
Verified
Irradiation for diffusely incident radiation
Go
Verified
Radiation intensity given emissive power for diffusely emitting black body
Go
Verified
Radiation intensity given emissive power for diffusely emitting surface
Go
Verified
Radiosity given incident and reflected radiation
Go
Verified
Temperature of diffusely emitting black body given radiation intensity
Go
Dimensionless groups
(14)
Verified
Euler Number
Go
Verified
Froude Number
Go
Verified
Gravity force given Froude number
Go
Verified
Internal conduction resistance given biot number
Go
Verified
Nusselt number given Stanton number and other dimensionless groups
Go
Verified
Prandtl number given Peclet number
Go
Verified
Pressure force given Euler number
Go
Verified
Rayleigh Number
Go
Verified
Reynolds number given Inertia and Viscous Force
Go
Verified
Reynolds number given Peclet number
Go
Verified
Stanton number for convection
Go
Verified
Stanton number given Nusselt number and other dimensionless groups
Go
Verified
Surface convection resistance
Go
Verified
Viscous force given Reynolds number
Go
6 More Dimensionless groups Calculators
Go
Discharging current
(3)
Created
Discharge current
Go
Created
Discharge voltage
Go
Created
Resistance of discharging circuit discharge voltage
Go
Discharging voltage
(5)
Created
Capacitance of circuit from resistance of discharging circuit
Go
Created
Discharging voltage
Go
Created
Resistance of discharging circuit from capacitance
Go
Created
Time elapsed
Go
Created
Voltage of charging circuit
Go
Dynamic Load
(1)
Verified
Equivalent Dynamic Load for Bearing given Radial Factor
Go
6 More Dynamic Load Calculators
Go
Dynamics
(2)
Verified
Maximum velocity to avoid overturning of vehicle along level circular path
Go
Verified
Maximum velocity to avoid skidding away of vehicle along level circular path
Go
3 More Dynamics Calculators
Go
Effective Length Of A Column
(10)
Verified
Crippling load given crippling stress
Go
Verified
Crippling stress
Go
Verified
Crippling stress given crippling load
Go
Verified
Cross-sectional area of column given crippling stress
Go
Verified
Effective length given crippling load and radius of gyration
Go
Verified
Effective length of column given crippling stress
Go
Verified
Modulus of elasticity given effective length and radius of gyration
Go
Verified
Modulus of elasticity of column given crippling stress
Go
Verified
Radius of gyration given crippling stress
Go
Verified
Radius of gyration given effective length and crippling load
Go
10 More Effective Length Of A Column Calculators
Go
Effective Thermal Conductivity and Heat Transfer
(5)
Verified
Effective thermal conductivity
Go
Verified
Effective thermal conductivity for space between two concentric spheres
Go
Verified
Effective Thermal Conductivity given Rayleigh Number based on Turbulence
Go
Verified
Heat transfer between concentric spheres given both diameters
Go
Verified
Heat transfer between concentric spheres given both radii
Go
3 More Effective Thermal Conductivity and Heat Transfer Calculators
Go
Effectiveness
(7)
Verified
Effectiveness of double pipe counter flow heat exchanger
Go
Verified
Effectiveness of heat exchanger given all exchanger with C equal to 0
Go
Verified
Effectiveness of heat exchanger in cross flow when both fluids are mixed
Go
Verified
Effectiveness of heat exchanger in cross flow when both fluids are unmixed
Go
Verified
Effectiveness of heat exchanger when Cmax is mixed and Cmin is unmixed
Go
Verified
Effectiveness of heat exchanger when Cmax is unmixed and Cmin is mixed
Go
Verified
Effectiveness of heat exchanger with one shell pass and 2, 4, 6 tube pass
Go
5 More Effectiveness Calculators
Go
Efficiency
(1)
Verified
Propeller efficiency given thrust
Go
10 More Efficiency Calculators
Go
Efficiency of Machines
(6)
Verified
Efficiency of differential screw jack
Go
Verified
Efficiency of geared pulley block
Go
Verified
Efficiency of weston's differential pulley block
Go
Verified
Efficiency of worm and worm wheel
Go
Verified
Efficiency of worm geared pulley block
Go
Verified
Efficiency of worm geared screw jack
Go
2 More Efficiency of Machines Calculators
Go
Energy delivered per spark
(5)
Created
Capacitance of circuit from energy per spark EDM
Go
Created
Charging voltage from energy per spark
Go
Created
Depth of crater
Go
Created
Energy delivered per spark
Go
Created
Energy per spark from depth of crater
Go
Equivalent Bearing Load
(1)
Verified
Equivalent Dynamic Load for Back to Back Bearings
Go
7 More Equivalent Bearing Load Calculators
Go
Flow of Liquids inside Packed Beds
(12)
Verified
Absolute viscosity of fluid by Ergun
Go
Verified
Density of fluid by Ergun
Go
Verified
Effective particle diameter by Ergun given frication factor
Go
Verified
Effective particle diameter by Ergun given Reynolds number
Go
Verified
Friction factor by Beek
Go
Verified
Friction factor by Ergun
Go
Verified
Friction factor by Ergun for Rep value between 1 and 2500
Go
Verified
Friction factor by Kozeny-Carman
Go
Verified
Head of fluid lost due to friction
Go
Verified
Mean effective diameter
Go
Verified
Reynolds number of packed beds by Ergun
Go
Verified
Superficial velocity by Ergun given Reynolds number
Go
Flow over Cylinders
(10)
Verified
Nusselt Number based on Diameter
Go
Verified
Nusselt number for liquid metals and silicones
Go
Verified
Nusselt number for liquid metals and silicones with higher Reynolds number value
Go
Verified
Nusselt Number for Liquid Metals given Peclet Number
Go
Verified
Nusselt number for liquid metals with constant heat flux
Go
Verified
Nusselt number for liquid metals with constant wall temperature
Go
Verified
Nusselt number for liquids and gases
Go
Verified
Nusselt number for liquids with higher Peclet number
Go
Verified
Nusselt number given dynamic viscosity
Go
Verified
Nusselt number when property variation is larger due to temperature variation
Go
2 More Flow over Cylinders Calculators
Go
Flow over Sphere
(7)
Verified
Nusselt number
Go
Verified
Nusselt number for air
Go
Verified
Nusselt number for gases
Go
Verified
Nusselt number for gases and liquids
Go
Verified
Nusselt number for liquid metals
Go
Verified
Nusselt number for liquids for external flow
Go
Verified
Nusselt number for oils and water
Go
1 More Flow over Sphere Calculators
Go
Flow rate of the electrolyte
(7)
Created
Atmospheric pressure
Go
Created
Dynamic viscosity of electrolyte
Go
Created
Flow rate of electrolyte
Go
Created
Gap spacing
Go
Created
Pressure in flushing hole flow rate electrolyte
Go
Created
Radius of electrode
Go
Created
Radius of flushing hole
Go
Fluidity Test
(2)
Created
Composition factor for gray cast iron
Go
Created
Fluidity spiral length
Go
For Metric Threads
(7)
Created
Diameter of wire used in three wire system method
Go
Created
Ideal wire diameter in three wire system method
Go
Created
Micrometer reading from three wire system method
Go
Created
Pitch diameter from three wire system method
Go
Created
Pitch of thread from three wire system method
Go
Created
Pitch of thread given ideal wire diameter
Go
Created
Thread angle given ideal wire diameter
Go
Force on Bolt and Thread
(9)
Verified
Change in external load on bolt given external load and stiffness of boad
Go
Verified
Change in Load on Bolt given Resultant Load and Initial Preload in Bolt
Go
Verified
External Force on Bolt
Go
Verified
Initial Preload in Bolt due to Tightening
Go
Verified
Limiting force on bolt given stiffness and initial preload
Go
Verified
Primary Shear Force on each Bolt
Go
Verified
Resultant Load on Bolt
Go
Verified
Tensile Force acting on Bolt given Shear Stress
Go
Verified
Tensile Force acting on Bolt given Tensile Stress
Go
1 More Force on Bolt and Thread Calculators
Go
Free convection
(16)
Verified
Diameter at which turbulence starts
Go
Verified
Diameter given Graetz number
Go
Verified
Diameter of rotating cylinder in fluid given Reynolds number
Go
Verified
Gap length
Go
Verified
Inside radius from gap length
Go
Verified
Inside temperature of concentric sphere
Go
Verified
Kinematic viscosity given Reynolds number based on rotational speed
Go
Verified
Kinematic viscosity of fluid
Go
Verified
Length given Graetz number
Go
Verified
Length of space between two concentric sphere
Go
Verified
Outside diameter of concentric sphere
Go
Verified
Outside radius from gap length
Go
Verified
Prandtl number given Graetz numbber
Go
Verified
Rotational speed given Reynolds number
Go
Verified
Rotational speed of disc
Go
Verified
Thermal conductivity of fluid
Go
7 More Free convection Calculators
Go
Free Stream Velocity
(1)
Verified
Free stream velocity of flat plate laminar flow
Go
5 More Free Stream Velocity Calculators
Go
Free Vibration of Single DOF Undamped Torsional System
(1)
Verified
Amount of amplitude of motion reduced in each successive cycle in coulomb damping
Go
2 More Free Vibration of Single DOF Undamped Torsional System Calculators
Go
Frequency of charging
(5)
Created
Capacitance of charging circuit
Go
Created
Charging voltage from resistance charging circuit
Go
Created
Frequency of charging
Go
Created
Resistance of charging circuit EDM
Go
Created
Supply voltage
Go
Frequency of cutting
(6)
Created
Capacitance of circuit
Go
Created
Charging time from cutting frequency
Go
Created
Frequency of cutting from capacitance and inductance
Go
Created
Frequency of cutting using charging and sparking time
Go
Created
Inductance of circuit from cutting frequency
Go
Created
Sparking time from frequency of cutting
Go
Frequency of discharge
(3)
Created
Capacitance of circuit from frequency discharge
Go
Created
Frequency of discharge oscillation
Go
Created
Inductance of circuit
Go
Gap Resistance
(11)
Created
Ambient temperature during ECM
Go
Created
Boiling point of electrolyte during Electrochemical Machining of metals
Go
Created
Cross-sectional area of gap
Go
Created
Current required in ECM
Go
Created
Density of electrolyte
Go
Created
Flow rate of electrolytes from gap resistance ECM
Go
Created
Gap resistance from electrolyte flow rate
Go
Created
Resistance of Gap between work and tool
Go
Created
Specific heat of electrolyte from volume flow rate
Go
Created
Specific resistance of electrolyte
Go
Created
Width of equilibrium gap
Go
Graetz and Grashof Number
(1)
Verified
Grashof number given Rayleigh number
Go
2 More Graetz and Grashof Number Calculators
Go
Heat absorbed by the electrolyte
(6)
Created
Ambient temperature
Go
Created
Boiling point of electrolyte
Go
Created
Density of electrolyte from heat absorbed electrolyte
Go
Created
Flow rate of electrolyte from heat absorbed electrolyte
Go
Created
Heat absorbed by electrolyte
Go
Created
Specific heat of electrolyte
Go
Heat exchanger
(1)
Verified
Mass of solid per unit length of matrix
Go
24 More Heat exchanger Calculators
Go
Heat Flow in Welded Joints
(13)
Created
Cooling Rate for Relatively Thick Plates
Go
Created
Cooling rate for relatively thin plates
Go
Created
Net heat supplied to achieve given cooling rates for thick plates
Go
Created
Net heat supplied to achieve given cooling rates for thin plates
Go
Created
Net heat supplied to weld area to raise it to given temperature from fusion boundary
Go
Created
Net Heat supplied using Relative Thickness Factor
Go
Created
Peak Temperature Reached at any Point in Material
Go
Created
Position of peak temperature from fusion boundary
Go
Created
Relative plate thickness factor
Go
Created
Thermal conductivity of base metal using given cooling rate (thick plates)
Go
Created
Thermal conductivity of base metal using given cooling rate (thin plates)
Go
Created
Thickness of base metal for desired cooling rate
Go
Created
Thickness of Base Metal using Relative Thickness Factor
Go
Heat Input in Welding
(7)
Created
Heat required to Melt Joint
Go
Created
Heat Transfer Efficiency
Go
Created
Melting Efficiency
Go
Created
Net heat per unit volume available for Arc welding
Go
Created
Net heat supplied to joint
Go
Created
Rated Duty Cycle given Actual Duty Cycle
Go
Created
Total heat generated in resistance welding
Go
3 More Heat Input in Welding Calculators
Go
Heat Transfer
(4)
Verified
Heat transfer by conduction given peclet number
Go
Verified
Heat transfer by convection given peclet number
Go
Verified
Heat transfer by convection given Stanton number
Go
Verified
Wall heat transfer rate given Stanton number
Go
2 More Heat Transfer Calculators
Go
Heat Transfer Parameters
(1)
Verified
Absolute humidity of air at initial air temperature
Go
4 More Heat Transfer Parameters Calculators
Go
Height
(7)
Verified
Height of Basic Profile of Screw Threads
Go
Verified
Height of Fundamental Triangle of Screw Threads
Go
Verified
Height of Fundamental Triangle of Screw Threads given Minor Diameter of External Thread
Go
Verified
Height of Fundamental Triangle of Screw Threads given Minor Diameter of Internal Thread
Go
Verified
Height of Fundamental Triangle of Screw Threads given Pitch Diameter of External Thread
Go
Verified
Height of Fundamental Triangle of Screw Threads given Pitch Diameter of Internal Thread
Go
Verified
Height of nut
Go
Humidification
(11)
Verified
Absolute Humidity of Air at Final Equilibrium Air Temperature
Go
Verified
Bulk gas temperature in dehumidification
Go
Verified
Convective mass transfer coefficient in humidification
Go
Verified
Gas phase heat transfer coefficient in dehumidification
Go
Verified
Gas phase mass transfer coefficient in dehumidification
Go
Verified
Liquid layer temperature in dehumidification
Go
Verified
Partial pressure of water vapor at wet bulb temperature
Go
Verified
Partial pressure of water vapor in air
Go
Verified
Specific heat of air during humidification
Go
Verified
Temperature of air given gas constant of water
Go
Verified
Wet bulb temperature given gas constant of water vapor
Go
13 More Humidification Calculators
Go
Inertia Force
(3)
Verified
Inertia force given Euler number
Go
Verified
Inertia force given Froude number
Go
Verified
Inertia force given Reynolds number
Go
1 More Inertia Force Calculators
Go
Initial Weight of Workpiece
(7)
Verified
Initial weight of workpiece given Cost of Machine tool
Go
Verified
Initial weight of workpiece given Length-to-diameter Ratio
Go
Verified
Initial weight of workpiece given Loading and Unloading time
Go
Verified
Initial weight of workpiece given Machining time for maximum power
Go
Verified
Initial weight of workpiece given Machining time under Max power for free machining
Go
Verified
Initial weight of workpiece given Power available for Machining
Go
Verified
Initial weight of workpiece given Total rate for Machining and Operator
Go
Kernel of Hollow Circular Section
(7)
Verified
Diameter of kernel for hollow circular section
Go
Verified
Eccentric Load given Bending Stress on Hollow Circular Section
Go
Verified
Eccentricity given Bending Stress on Hollow Circular Section
Go
Verified
Inner Diameter of Hollow Circular Section given Diameter of kernel
Go
Verified
Internal Diameter given Maximum Eccentricity of Load for Hollow Circular Section
Go
Verified
Maximum value of eccentricity of load for hollow circular section
Go
Verified
Section Modulus given Bending Stress and Eccentric Load on Hollow Circular Section
Go
6 More Kernel of Hollow Circular Section Calculators
Go
Kernel Of Hollow Rectangular Section
(3)
Verified
Distance of outermost layer from neutral axis for hollow rectangular section
Go
Verified
Moment of Inertia about xx axis for Hollow Rectangular Section
Go
Verified
Section Modulus about x-x axis for Hollow Rectangular Section given Moment of Inertia
Go
10 More Kernel Of Hollow Rectangular Section Calculators
Go
Laminar Flow
(7)
Verified
Average friction coefficient
Go
Verified
Coefficient of friction given Stanton number
Go
Verified
Displacement thickness
Go
Verified
Hydrodynamic boundary layer thickness at distance X from leading edge
Go
Verified
Local Friction Coefficient given Reynolds Number
Go
Verified
Momentum thickness
Go
Verified
Thermal boundary layer thickness at distance X from leading edge
Go
8 More Laminar Flow Calculators
Go
Laminar Flow
(2)
Verified
Darcy friction factor for Colburn analogy
Go
Verified
Nusselt number for short tube thermal development
Go
13 More Laminar Flow Calculators
Go
Lap Joint with Fillets
(3)
Created
Length of fillet leg in Lap joints from shrinkage
Go
Created
Thickness of plates in Lap joints
Go
Created
Transverse shrinkage in Lap Joint with Fillets
Go
Laser Beam Machining (LBM)
(11)
Created
Ambient temperature during LBM
Go
Created
Diffusivity of metal
Go
Created
Energy required to melt metal
Go
Created
Latent heat of fusion of metal
Go
Created
Melting temperature of metal
Go
Created
Minimum thickness of metal
Go
Created
Reflectivity of material
Go
Created
Specific gravity of given metal
Go
Created
Specific heat capacity of metal
Go
Created
Time duration of laser beam
Go
Created
Volume of metal melted
Go
Loading And Unloading Time
(2)
Verified
Loading and Unloading time given initial weight of workpiece
Go
Verified
Loading and unloading time given Non-productive time in turning
Go
Local and Average Nusselt Number
(2)
Verified
Average Nusselt number upto L
Go
Verified
Average Nusselt number upto length L for constant heat flux
Go
5 More Local and Average Nusselt Number Calculators
Go
Lowenherz 53
(4)
Created
Diameter of measuring wires
Go
Created
Micrometer measurement per reading lowenherz
Go
Created
Pitch diameter lowenherz
Go
Created
pitch of screw lowenherz
Go
Machining
(11)
Verified
Density of Workpiece given Initial weight of workpiece
Go
Verified
Diameter of Workpiece given Surface Generation rate
Go
Verified
Direct labour Rate given Total rate for Machining and Operator
Go
Verified
Factor to allow for Machining overheads given Total rate for Machining and Operator
Go
Verified
Factor to allow for Operator overheads given Total rate for Machining and Operator
Go
Verified
Length of Workpiece given Surface Generation rate
Go
Verified
Length-to-diameter Ratio in terms Initial weight of workpiece
Go
Verified
Number of shifts given Total rate for Machining and Operator
Go
Verified
Proportion of Initial Volume of workpiece to be removed given Initial weight of workpiece
Go
Verified
Surface area of Workpiece given Surface Generation rate
Go
Verified
Surface Generation Rate
Go
13 More Machining Calculators
Go
Machining Time
(3)
Verified
Machining time for maximum power given Initial weight of workpiece
Go
Verified
Machining Time for Minimum Cost given Surface Generation rate
Go
Verified
Machining time under Max power for free machining
Go
3 More Machining Time Calculators
Go
Major Diameter
(10)
Verified
Major Diameter of External Thread given Height of Fundamental Triangle
Go
Verified
Major Diameter of External Thread given Minor Diameter of External Thread
Go
Verified
Major Diameter of External Thread given Pitch and Pitch Diameter of External Thread
Go
Verified
Major Diameter of Internal Thread given Height of Fundamental triangle
Go
Verified
Major Diameter of Internal Thread given Pitch and Minor Diameter of External Thread
Go
Verified
Major Diameter of Internal Thread given Pitch and Minor Diameter of Internal Thread
Go
Verified
Major Diameter of Internal Thread given Pitch Diameter of Internal Thread
Go
Verified
Minor Diameter of Internal Thread given Pitch and Pitch Diameter of Internal Thread
Go
Verified
Nominal Diameter of Bolt
Go
Verified
Nominal Diameter of Bolt given Core Diameter
Go
Mass Moment of Inertia
(7)
Verified
Mass of circular plate
Go
Verified
Mass of cone
Go
Verified
Mass of cuboid
Go
Verified
Mass of rectangular plate
Go
Verified
Mass of solid cylinder
Go
Verified
Mass of solid sphere
Go
Verified
Mass of triangular plate
Go
Mass Transfer Coefficient
(2)
Verified
Convective Mass Transfer Coefficient for Simultaneous Heat and Mass Transfer
Go
Verified
Convective Mass Transfer Coefficient of Flat Plate Laminar Flow using Friction Factor
Go
15 More Mass Transfer Coefficient Calculators
Go
Material removal rate (MRR)
(7)
Created
Frequency of charging from volume crater
Go
Created
Input power supply to achieve given MRR
Go
Created
Material removal rate, MRR
Go
Created
Metal removal rate from volume of crater
Go
Created
Proportionality constant for MRR
Go
Created
Resistance of circuit
Go
Created
Volume of crater from MRR
Go
Material Removal Rate (MRR)
(4)
Created
Atomic weight of work material
Go
Created
Current required for given MRR
Go
Created
Material Removal Rate in ECM
Go
Created
Valency of work material
Go
Maximum spark current
(4)
Created
Capacitance of circuit from max spark current
Go
Created
Inductance of circuit from max spark current
Go
Created
Maximum spark current
Go
Created
Voltage of charging circuit max spark current
Go
Mechanics of orthogonal cutting
(10)
Created
Area of cut from tool temperature
Go
Created
Cutting speed from tool temperature
Go
Created
Cutting Speed given Spindle Speed
Go
Created
Machining Time given Cutting Speed
Go
Created
Machining Time given Spindle Speed
Go
Created
Nose radius of tool from surface finish constraint
Go
Created
specific cutting energy per unit cutting force from tool temperature
Go
Created
Specific heat of work from tool temperature
Go
Created
Surface finish constraint
Go
Created
Thermal conductivity of work from tool temperature
Go
Metrology
(1)
Created
Tolerance Unit
Go
Minimum resistance in the circuit
(2)
Created
Capacitance of circuit using resistance minimum
Go
Created
Minimum resistance in circuit
Go
Minor Diameter
(4)
Verified
Minor Diameter of External Thread given Height of Fundamental Triangle
Go
Verified
Minor Diameter of External Thread given Pitch and Major Diameter of Internal Thread
Go
Verified
Minor Diameter of Internal Thread given Height of Fundamental Triangle
Go
Verified
Minor Diameter of Internal Thread given Pitch and Major Diameter of Internal Thread
Go
Molar Diffusion
(1)
Verified
Molar Flux of Diffusing Component A for Equimolar Diffusion with B based on Partial Pressure of A
Go
16 More Molar Diffusion Calculators
Go
Motion under force of gravity
(5)
Verified
Distance travelled in free fall under gravity given initial velocity and time
Go
Verified
Distance Travelled when Particle is Projected Upwards using Initial Velocity and Time
Go
Verified
Final velocity in free fall under gravity given initial velocity and displacement
Go
Verified
Final velocity in free fall under gravity given initial velocity and time
Go
Verified
Final Velocity when Particle is Projected Upwards using Initial Velocity and Time
Go
Motion under Uniform Acceleration
(10)
Verified
Average velocity
Go
Verified
Displacement of particle
Go
Verified
Distance Traveled by Particle given average velocity
Go
Verified
Distance travelled by particle
Go
Verified
Distance travelled in n seconds
Go
Verified
Distance travelled in n-1 seconds
Go
Verified
Distance Travelled in nth Second
Go
Verified
Final velocity given displacement, uniform acceleration, and initial velocity of particle
Go
Verified
Initial velocity given displacement, uniform acceleration and final velocity of particle
Go
Verified
Time taken by Particle to change its Initial Velocity to Final Velocity
Go
1 More Motion under Uniform Acceleration Calculators
Go
Net force acting on the electrode
(3)
Created
Ambient atmospheric pressure
Go
Created
Net force acting on electrode
Go
Created
Pressure in flushing hole net force electrode
Go
Nusselt Number
(3)
Verified
Average Nusselt number upto length L
Go
Verified
Nusselt number at location L
Go
Verified
Nusselt number for liquid metals or for silicones
Go
8 More Nusselt Number Calculators
Go
Nusselt Number
(17)
Verified
Nusselt Number based on Diameter for Horizontal Cylinders
Go
Verified
Nusselt Number based on Diameter for Liquid Metals
Go
Verified
Nusselt Number based on Length for Rectangular Cavities
Go
Verified
Nusselt number for heated surface down
Go
Verified
Nusselt number for horizontal cylinders
Go
Verified
Nusselt number for horizontal plate with constant heat flux
Go
Verified
Nusselt number for horizontal plate with constant wall temperature
Go
Verified
Nusselt number for horizontal plate with heated surface up
Go
Verified
Nusselt number for horizontal plate with upper surface cooled or lower surface heated
Go
Verified
Nusselt number for horizontal plate with upper surface heated or lower surface cooled
Go
Verified
Nusselt number for inclined plate with constant heat flux
Go
Verified
Nusselt number for inclined plates with heated surface facing down
Go
Verified
Nusselt number for medium aspect ratio
Go
Verified
Nusselt number for small aspect ratio
Go
Verified
Nusselt number for sphere
Go
Verified
Nusselt number for sphere with Pr equal to 1
Go
Verified
Nusselt number with large aspect ratio and higher RL
Go
7 More Nusselt Number Calculators
Go
Other shapes
(10)
Verified
Heat flow rate through pipe with eccentric lagging
Go
Verified
Heat flow through pipe in square section
Go
Verified
Inner surface temperature of pipe in square section
Go
Verified
Inner surface temperature of pipe with eccentric lagging
Go
Verified
Length of pipe with eccentric lagging
Go
Verified
Outer surface temperature of pipe in square section
Go
Verified
Outer surface temperature of pipe with eccentric lagging
Go
Verified
Thermal conductivity for pipe with eccentric lagging
Go
Verified
Thermal Resistance for Pipe in Square Section
Go
Verified
Thermal resistance of pipe with eccentric lagging
Go
1 More Other shapes Calculators
Go
Permeability Number
(12)
Created
Air Pressure during testing
Go
Created
Cross-sectional area of specimen
Go
Created
Grain Fineness Number (GFN)
Go
Created
Height of specimen
Go
Created
Permeability Number
Go
Created
Permeability number (standard specimen)
Go
Created
Pouring temperature from fluidity spiral length
Go
Created
Pressure during testing (standard specimen)
Go
Created
Ranginess factor
Go
Created
Time taken during testing
Go
Created
Time taken in standard specimen testing
Go
Created
Volume of air passed through specimen
Go
Pitch
(8)
Verified
Pitch of bolt thread
Go
Verified
Pitch of Screw Threads given Radius of Root
Go
Verified
Pitch of Threads given Height of Basic Profile
Go
Verified
Pitch of Threads given Height of Fundamental Triangle
Go
Verified
Pitch of Threads given Major Diameter of Internal Thread
Go
Verified
Pitch of Threads given Minor Diameter of Internal Thread
Go
Verified
Pitch of Threads given Pitch Diameter of External Thread
Go
Verified
Pitch of Threads given Pitch Diameter of Internal Thread
Go
Pitch Diameter
(4)
Verified
Pitch Diameter of External Thread given Height of Fundamental Triangle
Go
Verified
Pitch Diameter of External Thread given Pitch
Go
Verified
Pitch Diameter of Internal Thread given Height of Fundamental Triangle
Go
Verified
Pitch Diameter of Internal Thread given Pitch
Go
Polymer Matrix Composites (PMC)
(16)
Created
Elastic Modulus of Composite in Longitudinal Direction
Go
Created
Elastic Modulus of Composite in Transverse Direction
Go
Created
Elastic Modulus of Fiber using Composite (transverse direction)
Go
Created
Elastic Modulus of Fiber using Composite's Longitudinal Direction
Go
Created
Elastic Modulus of Matrix using Composite (transverse direction)
Go
Created
Elastic Modulus of Matrix using Composite's Longitudinal Direction
Go
Created
Fiber diameter from given critical fiber length
Go
Created
Fiber-matrix bonding strength from given critical length of fiber
Go
Created
Tensile strength of fiber from longitudinal tensile strength of composite
Go
Created
Tensile Strength of Fiber given Critical Fiber Length
Go
Created
Tensile Strength of Matrix given Longitudinal Tensile Strength of Composite
Go
Created
Volume Fraction of Fiber from EM of Composite (longitudinal direction)
Go
Created
Volume fraction of fiber from EM of composite (transverse direction)
Go
Created
Volume fraction of fiber from longitudinal tensile strength of composite
Go
Created
Volume Fraction of Matrix from E of Composite (longitudinal direction)
Go
Created
Volume fraction of matrix from EM of composite (transverse direction)
Go
2 More Polymer Matrix Composites (PMC) Calculators
Go
Possible surface defects in EDM
(15)
Created
Capacitance responsible for given overcut
Go
Created
Depth of machined surface
Go
Created
Depth of machined surface given taper
Go
Created
Empirical constant for taper
Go
Created
Largest size of hole given taper
Go
Created
MRR for given surface unevenness
Go
Created
Overcut constant A
Go
Created
Overcut constant B
Go
Created
Overcut produced per side
Go
Created
Smaller diameter of crater given Taper
Go
Created
Smallest diameter of hole given empirical constant
Go
Created
Surface unevenness
Go
Created
Taper produced due to side sparks
Go
Created
Upper diameter of hole
Go
Created
Volume of crater made by electric spark
Go
Power available
(1)
Verified
Power available for Machining given Initial weight of workpiece
Go
1 More Power available Calculators
Go
Power delivered per spark
(3)
Created
Energy delivered per spark from resistance charging circuit
Go
Created
Power supply required for given spark power
Go
Created
Resistance of charging circuit from voltage supply
Go
Power density of laser beam
(8)
Created
Beam divergence
Go
Created
Beam divergence given diameter of spot
Go
Created
Diameter of spot produced by laser
Go
Created
Focal length given diameter of spot
Go
Created
Focal length of lens
Go
Created
Laser energy output
Go
Created
Power density of laser beam
Go
Created
Pulse duration of laser
Go
Practical Cycles
(4)
Verified
Efficiency of Turbine in actual Gas Turbine Cycle given Enthalpy
Go
Verified
Minimum temperature ratio
Go
Verified
Work ratio in practical cycle
Go
Verified
Work required to drive Compressor including Mechanical Losses
Go
6 More Practical Cycles Calculators
Go
Prandtl and Peclet Number
(3)
Verified
Peclet number given Reynolds number
Go
Verified
Prandtl number given Rayleigh number
Go
Verified
Prandtl number given Stanton number and other dimensionless groups
Go
4 More Prandtl and Peclet Number Calculators
Go
Pressure distribution in the flushing gap
(6)
Created
Atmospheric pressure at electrode tip
Go
Created
Pressure distribution in flushing gap
Go
Created
Pressure in flushing hole
Go
Created
Radial location of pressure distribution
Go
Created
Radius of electrode from pressure flushing hole
Go
Created
Radius of flushing hole EDM
Go
Production Engineering
(2)
Created
Maximum pressure for backward extrusion of carbon steels
Go
Created
Required Duty cycle for arc welding
Go
9 More Production Engineering Calculators
Go
Projectiles
(6)
Verified
Horizontal range of projectile
Go
Verified
Horizontal range of projectile given horizontal velocity and time of flight
Go
Verified
Initial velocity given maximum horizontal range of projectile
Go
Verified
Maximum height of projectile on horizontal plane
Go
Verified
Maximum height of projectile on horizontal plane given average vertical velocity
Go
Verified
Maximum horizontal range of projectile
Go
8 More Projectiles Calculators
Go
Radiation
(6)
Verified
Radiation energy emitted by black body in time interval given emissive power
Go
Verified
Radiation energy emitted by black body in time interval given temperature
Go
Verified
Spectral black body emissive power Planck's law
Go
Verified
Surface Area of Black Body required to Emit certain amount of Radiation Energy
Go
Verified
Temperature of black body to emit certain amount of radiation energy
Go
Verified
Time required to emit specified amount of radiation energy from black body
Go
2 More Radiation Calculators
Go
Rayleigh and Reynolds Number
(3)
Verified
Rayleigh number based on turbulence for concentric spheres
Go
Verified
Reynolds Number given Graetz Number
Go
Verified
Reynolds Number given Rotational Speed
Go
2 More Rayleigh and Reynolds Number Calculators
Go
Resistance spot welding parameters for mild steels
(4)
Created
Current required to sustain welding
Go
Created
Electrode force
Go
Created
Electrode Tip Diameter
Go
Created
Weld time in cycles
Go
Rolling process
(17)
Created
Angle subtended by Neutral point
Go
Created
Factor H at Neutral point
Go
Created
Factor H used in Rolling calculations
Go
Created
Initial Stock Thickness given Pressure on Rolls
Go
Created
Maximum Reduction in Thickness Possible
Go
Created
Mean Yield Shear Stress given Pressure on entry side
Go
Created
Mean Yield Shear Stress using Pressure on Exit Side
Go
Created
Pressure acting on Rolls from Entry Side
Go
Created
Pressure acting on Rolls in exit Region
Go
Created
Pressure considering rolling similar to plane-strain-upsetting process
Go
Created
Pressure on Rolls given H (exit side)
Go
Created
Pressure on Rolls given H(entry side)
Go
Created
Projected Area
Go
Created
Projected Length
Go
Created
Thickness of stock at given point on entry side.
Go
Created
Thickness of stock at given point on exit side
Go
Created
Total Elongation of Stock
Go
1 More Rolling process Calculators
Go
Rotary Motion
(3)
Verified
Final angular momentum
Go
Verified
Initial angular momentum
Go
Verified
Rate of change of angular momentum
Go
Screw Friction
(2)
Verified
Pitch of screw
Go
Verified
Slope of thread in multi-threaded screw
Go
2 More Screw Friction Calculators
Go
Sharp V
(4)
Created
Diameter of wire used Sharp V
Go
Created
Micrometer measurement per reading sharp V
Go
Created
Pitch diameter sharp v
Go
Created
Pitch of screw threads sharp v
Go
Shear and Tensile Stress
(5)
Verified
Shear Stress at Core Diameter given Shear Yield Strength of Threaded Fastener
Go
Verified
Shear Stress at Core Diameter of Threaded Fastener given Tensile Force
Go
Verified
Shear Stress at Core Diameter of Threaded Fasteners given Tensile Yield Strength
Go
Verified
Tensile Stress in Core Cross-Section of Bolt given Tensile Force and Core Diameter
Go
Verified
Tensile Stress in Core Cross-Section of Bolt given Tensile Yield Strength
Go
Sheet Metal Operations
(21)
Created
Average of tensile strength before and after ironing
Go
Created
Bending force
Go
Created
Blank diameter from percent reduction
Go
Created
Blank Size for Drawing Operation
Go
Created
Blank size when there is corner radius on punch
Go
Created
Clearance between Two Shears
Go
Created
Drawing Force for Cylindrical shells
Go
Created
Ironing Force after drawing
Go
Created
Maximum Shear Force given Shear applied to Punch or Die
Go
Created
Mean diameter of shell after ironing
Go
Created
Penetration of punch as fraction
Go
Created
Percent reduction after drawing
Go
Created
Perimeter of Cut given Stripper Force
Go
Created
Perimeter of cut when shear is applied
Go
Created
Punching Force for Holes Smaller than Sheet Thickness
Go
Created
Shear on Punch or Die
Go
Created
Shell diameter from percent reduction
Go
Created
Stock thickness when shear on punch is used
Go
Created
Stripping force
Go
Created
Thickness of shell before ironing
Go
Created
Thickness of Stock given Stripper Force
Go
2 More Sheet Metal Operations Calculators
Go
Sparking time
(5)
Created
Capacitance of circuit from sparking time
Go
Created
Frequency of discharge
Go
Created
Inductance of circuit from sparking time
Go
Created
Sparking time
Go
Created
Sparking time from frequency of discharge
Go
Specific Cutting Energy
(1)
Verified
Specific cutting energy given Initial weight of workpiece
Go
1 More Specific Cutting Energy Calculators
Go
Sprue
(4)
Created
Area at choke section of sprue
Go
Created
Area at top section of sprue
Go
Created
Metal head at choke section of sprue
Go
Created
Metal head at top section of sprue
Go
Standard relations to calculate pouring time for different casting materials
(7)
Created
Castings above 450 kg and up to 1000 kg
Go
Created
Copper Alloy Castings
Go
Created
Grey Cast Iron, Mass greater than 450 kg
Go
Created
Grey Cast Iron, Mass less than 450 kg
Go
Created
Intricately Shaped Thin-walled Castings of Mass up to 450 kg
Go
Created
Shell-moulded Ductile Iron (vertical pouring)
Go
Created
Steel Castings
Go
Statics of Particles
(1)
Verified
Moment of force
Go
10 More Statics of Particles Calculators
Go
Thread measurement
(4)
Created
Diameter of wire used in measurement over wires method
Go
Created
Micrometer reading from measurement over wires method
Go
Created
Pitch diameter from measurement over wires method
Go
Created
Pitch of thread from measurement over wires method
Go
T-joint with Two Fillets
(3)
Created
Length of fillet leg from transverse shrinkage in T-joints
Go
Created
Thickness of bottom plate in T-joints
Go
Created
Transverse shrinkage in T-joint with Two Fillets
Go
Tool Equations
(3)
Verified
Number of tools given Non-productive time in turning
Go
Verified
Tool positioning time per operation given Non-productive time in turning
Go
Verified
Total rate for Machining and Operator
Go
2 More Tool Equations Calculators
Go
Tool Life and Tool Wear
(1)
Created
Tool temperature
Go
10 More Tool Life and Tool Wear Calculators
Go
Transition fits
(3)
Created
Maximum interference
Go
Created
Maximum limit size of shaft from maximum interference of fit
Go
Created
Minimum limit size of hole from maximum interference of fit
Go
3 More Transition fits Calculators
Go
Transverse Fin Heat Exchanger
(5)
Verified
Distance between two consequent tubes in transverse fin heat exchanger
Go
Verified
Length of tube bank
Go
Verified
Mass flowrate given mass flux
Go
Verified
Mass flux given mass flowrate
Go
Verified
Number of tubes in transverse fin heat exchanger
Go
20 More Transverse Fin Heat Exchanger Calculators
Go
Turbulent Flow
(12)
Verified
Friction factor for Re greater than 10000
Go
Verified
Friction factor for Re greater than 2300
Go
Verified
Friction factor for rough tube Colburn analogy
Go
Verified
Friction factor for rough tubes
Go
Verified
Friction factor for transitional turbulent flow
Go
Verified
Nusselt number at entrance region
Go
Verified
Nusselt number for constant heat flux
Go
Verified
Nusselt number for liquid metals at constant wall temperature
Go
Verified
Nusselt number for Smooth tubes
Go
Verified
Nusselt number for smooth tubes and fully developed flow
Go
Verified
Nusselt number for thermal entry region
Go
Verified
Stanton number at bulk temperature
Go
2 More Turbulent Flow Calculators
Go
Turning
(7)
Verified
Basic setup time given Non-productive time in turning
Go
Verified
Batch size given Non-productive time in turning
Go
Verified
Diameter of turned parts given Length-to-diameter Ratio
Go
Verified
Length-to-diameter Ratio given diameter of turned parts
Go
Verified
Non-productive time in turning
Go
Verified
Number of operations given Non-productive time in turning
Go
Verified
Set-up Time per tool terms of Non-productive time in turning
Go
3 More Turning Calculators
Go
Unified and national threads
(4)
Created
Diameter of wire used Unified and national threads
Go
Created
Micrometer measurement per reading
Go
Created
Pitch diameter Unified national threads
Go
Created
Pitch of Screw Threads
Go
Unsymmetrical threads
(6)
Created
Best size wire
Go
Created
Best wire size for modified buttress 45deg and 7deg
Go
Created
Micrometer reading per measurement
Go
Created
Pitch diameter unsymmetrical threads
Go
Created
Pitch for modified buttress 45deg and 7deg
Go
Created
Pitch of screw unsymmetrical threads
Go
USA standard taper pipe
(4)
Created
Diameter of wire used USA standard taper pipe
Go
Created
Micrometer reading per measurement USA standard taper pipe
Go
Created
Pitch diameter USA standard taper pipe
Go
Created
Pitch of Screw USA Standard Taper
Go
Velocity Ratio
(1)
Verified
Velocity ratio in weston's differential pulley block
Go
12 More Velocity Ratio Calculators
Go
Volume of crater made by an electric spark
(5)
Created
Diameter of crater
Go
Created
Discharge duration of single pulse
Go
Created
Mean current setting from crater volume
Go
Created
Ultimate tensile strength of work piece material
Go
Created
Volume of crater related to mean current setting
Go
Wear Ratio
(3)
Created
Volume of electrode material worn out
Go
Created
Volume of work material removed
Go
Created
Wear Ratio
Go
Whitworth 55deg. included angle
(4)
Created
Diameter of Wire
Go
Created
Micrometer reading per measurement whitworth
Go
Created
Pitch diameter whitworth
Go
Created
pitch of screw threads whitworth
Go
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