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Calculators Created by sanjay shiva
sanjay shiva
national institute of technology hamirpur
(NITH )
,
hamirpur , himachal pradesh
126
Formulas Created
132
Formulas Verified
42
Across Categories
List of Calculators by sanjay shiva
Following is a combined list of all the calculators that have been created and verified by sanjay shiva. sanjay shiva has created 126 and verified 132 calculators across 42 different categories till date.
ASME Code for Shaft Desgin
(1)
Created
Design of Shaft using ASME Code
Go
4 More ASME Code for Shaft Desgin Calculators
Go
Basics
(1)
Verified
Zero Bias Junction Voltage
Go
5 More Basics Calculators
Go
Bolt Loads in Gasket Joints
(16)
Created
Actual Cross-sectional Area of Bolts given Root Diameter of Thread
Go
Created
Bolt Load in Design of Flange for Gasket Seating
Go
Created
Bolt load under operating condition
Go
Created
Bolt Load under operating condition given Hydrostatic End Force
Go
Created
Deflection of Spring Initial Bolt Load to Seal Gasket Joint
Go
Created
Gasket Width given actual Cross-sectional Area of Bolts
Go
Created
Hydrostatic Contact Force given Bolt Load under Operating condition
Go
Created
Hydrostatic end force
Go
Created
Hydrostatic End Force given Bolt Load under Operating condition
Go
Created
Initial Bolt Load to seat Gasket Joint
Go
Created
Load on bolts based on hydrostatic end force
Go
Created
Stress Required for Gasket Seating
Go
Created
Stress Required for Gasket Seating given Bolt Load
Go
Created
Test pressure given Bolt Load
Go
Created
Total cross-sectional area of bolt at root of thread
Go
Created
Width of U Collar given Initial Bolt Load to Seat Gasket Joint
Go
Closely-coiled Helical Spring
(4)
Verified
Frequency of Mass Attached to Closely Coiled Helical Spring which is Hanged Vertically
Go
Verified
Frequency of Mass Attached to Spring of given Mass
Go
Verified
Periodic Time of Mass Attached to Closely Coiled Helical Spring which is Hanged Vertically
Go
Verified
Periodic Time of Mass Attached to Spring of given Mass
Go
2 More Closely-coiled Helical Spring Calculators
Go
Depth of Groove
(3)
Created
Depth of Groove given Allowable Impact Loading on Groove
Go
Created
Depth of Groove given Allowable Static Thrust Load and Allowable Impact Loading on Groove
Go
Created
Depth of Groove given allowable Static Thrust Load on Groove
Go
1 More Depth of Groove Calculators
Go
Design of Spur Gears
(2)
Verified
Effective load on Gear Tooth by Buckingham method
Go
Verified
Ratio Factor for Internal Gears
Go
66 More Design of Spur Gears Calculators
Go
Design of Worm Gears
(3)
Verified
Lead angle of Worm Gear given lead of worm and pitch circle diameter of worm
Go
Verified
Lead of Worm Gear given axial module and number of starts on worm
Go
Verified
Lead of Worm Gear given axial pitch and number of starts on worm
Go
4 More Design of Worm Gears Calculators
Go
Driveline
(2)
Verified
Angular Acceleration of Driven Shaft
Go
Verified
Velocity Ratio of Hooke's Joint
Go
12 More Driveline Calculators
Go
Driveline Angular Velocity
(3)
Verified
Angular Velocity of Driven Shaft
Go
Verified
Angular Velocity of Driving Shaft
Go
Verified
Angular Velocity of Driving Shaft given Angular Acceleration of Driven Shaft
Go
Effects due to Retardation
(6)
Verified
Braking Retardation on Front Wheel
Go
Verified
Friction Coefficient between Wheels and Road Surface using Retardation on Front Wheel
Go
Verified
Height of C.G. using Retardation on Front Wheel
Go
Verified
Horizontal Distance of C.G. from Rear Axle using Retardation on Front Wheel
Go
Verified
Slope of Road using Retardation on Front Wheel
Go
Verified
Vehicle Wheel Base using Retardation on Front Wheel
Go
Effects on Front Wheel
(7)
Verified
Friction Coefficient between Wheels and Road Surface at Front Wheel
Go
Verified
Height of C.G. at Front Wheel
Go
Verified
Horizontal Distance of C.G. from Rear Axle at Front Wheel
Go
Verified
Normal Reaction Force on Front Wheel
Go
Verified
Slope of Road at Front Wheel
Go
Verified
Vehicle Weight at Front Wheel
Go
Verified
Vehicle Wheelbase at Front Wheel
Go
Effects on Front Wheel
(7)
Verified
Friction Coefficient between Wheel and Road Surface with Front Wheel Brake
Go
Verified
Front Wheel Reaction with All Wheel Braking
Go
Verified
Height of C.G. from Road Surface with Front Wheel Brake
Go
Verified
Horizontal Distance of C.G from Rear Axle with Front Wheel Brake
Go
Verified
Slope of Road from Braking with Front Wheel Reaction
Go
Verified
Vehicle Weight with All Wheel Brake on Front Wheel
Go
Verified
Wheel Base with All Wheel Braking on Front Wheel
Go
Effects on Front Wheel (FW)
(7)
Verified
Friction Coefficient between Wheel and Road Surface on Front Wheel
Go
Verified
Height of C.G. from Road Surface on Front Wheel
Go
Verified
Horizontal Distance of C.G from Rear Axle on Front Wheel
Go
Verified
Normal Reaction Force at Front Wheel
Go
Verified
Slope of Road on Front Wheel
Go
Verified
Weight of Vehicle on Front Wheel
Go
Verified
Wheel Base on Front Wheel
Go
Effects on Rear Wheel
(7)
Verified
Friction Coefficient between Wheels and Road Surface at Rear Wheel
Go
Verified
Height of C.G. at Rear Wheel
Go
Verified
Horizontal Distance of C.G. from Rear Axle at Rear Wheel
Go
Verified
Normal Reaction Force on Rear Wheel
Go
Verified
Slope of Road at Rear Wheel
Go
Verified
Vehicle Weight at Rear Wheel
Go
Verified
Vehicle Wheel Base at Rear Wheel
Go
Effects on Rear Wheel
(7)
Verified
Friction Coefficient between Wheel and Road Surface with Rear Wheel Brake
Go
Verified
Height of C.G. from Road Surface with Rear Wheel Brake
Go
Verified
Horizontal Distance of C.G from Rear Axle with Rear Wheel Brake
Go
Verified
Rear Wheel Reaction with All Wheel Braking
Go
Verified
Slope of Road from Braking with Rear Wheel Reaction
Go
Verified
Vehicle Weight with All Wheel Brake on Rear Wheel
Go
Verified
Wheel Base with All Wheel Braking on Rear Wheel
Go
Effects on Rear Wheel (RW)
(12)
Verified
Braking Retardation on Rear Wheel
Go
Verified
Friction Coefficient between Wheel and Road Surface on Rear Wheel
Go
Verified
Friction Coefficient using Retardation on Rear Wheel
Go
Verified
Height of C.G. from Road Surface on Rear Wheel
Go
Verified
Height of C.G. using Retardation on Rear Wheel
Go
Verified
Horizontal Distance of C.G. from Rear Axle on Rear Wheel
Go
Verified
Horizontal Distance of C.G. using Retardation on Rear Wheel
Go
Verified
Normal Reaction Force at Rear Wheel
Go
Verified
Slope of Road on Rear Wheel
Go
Verified
Weight of Vehicle on Rear Wheel
Go
Verified
Wheel Base of Vehicle using Retardation on Rear Wheel
Go
Verified
Wheel Base on Rear Wheel
Go
Elastic Packing
(9)
Created
Diameter of Bolt given Frictional Force exerted by Soft packing on Reciprocating rod
Go
Created
Fluid pressure by soft packing exerted by frictional force on reciprocating rod
Go
Created
Fluid Pressure given Friction Resistance
Go
Created
Fluid Pressure given Torsional Resistance
Go
Created
Friction resistance
Go
Created
Frictional force exerted by soft packing on reciprocating rod
Go
Created
Seal resistance
Go
Created
Torsional Resistance given Fluid Pressure
Go
Created
Torsional resistance in rotary motion friction
Go
Factor of Safety
(2)
Created
Factor of Safety given allowable Static Thrust Load on Groove
Go
Created
Factor of Safety given Allowable Static Thrust Load on Ring
Go
Heat Transfer in Condenser
(12)
Verified
Heat transfer takes place from outside surface to inside surface of tube
Go
Verified
Heat Transfer takes place from vapour refrigerant to outside of tube
Go
Verified
Mean Surface area of Tube when Heat transfer takes place from outside to inside surface of tube
Go
Verified
Overall Temperature difference given Heat Transfer
Go
Verified
Overall Temperature difference when Heat Transfer from vapour refrigerant to outside of tube
Go
Verified
Overall Temperature difference when Heat transfer takes place from outside to inside surface of tube
Go
Verified
Overall thermal resistance in condenser
Go
Verified
Temperature at Inside Surface of Tube given Heat Transfer
Go
Verified
Temperature at Outside Surface of Tube given Heat Transfer
Go
Verified
Temperature at Outside Surface of Tube provided Heat Transfer
Go
Verified
Temperature of Refrigerant Vapour condensing Film given Heat Transfer
Go
Verified
Thickness of Tube when Heat transfer takes places from outside to inside surface of tube
Go
4 More Heat Transfer in Condenser Calculators
Go
Leakage through Bush Seals
(15)
Created
Amount of Leakage of Fluid through Face Seal
Go
Created
Inside Diameter of Gasket given Shape Factor
Go
Created
Internal Hydraulic Pressure given Zero Leakage of Fluid through Face Seal
Go
Created
Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal
Go
Created
Oil Flow through Plain Axial Bush Seal due to Leakage under Laminar Flow Condition
Go
Created
Oil Flow through Plain Radial Bush Seal due to Leakage under Laminar Flow Condition
Go
Created
Outside Diameter of Gasket given Shape Factor
Go
Created
Outside Radius of Rotating Member given Power Loss due to Leakage of Fluid through Face Seal
Go
Created
Power Loss or Consumption due to Leakage of Fluid through Face Seal
Go
Created
Radial Pressure Distribution for Laminar Flow
Go
Created
Shape Factor for Circular or Annular Gasket
Go
Created
Thickness of Fluid between Members given Power Loss due to Leakage of Fluid through Face Seal
Go
Created
Thickness of Fluid between Members given Shape Factor
Go
Created
Volumetric Flow Rate under Laminar Flow Condition for Axial Bush Seal for Compressible Fluid
Go
Created
Volumetric Flow Rate under Laminar Flow Condition for Radial Bush Seal for Compressible Fluid
Go
2 More Leakage through Bush Seals Calculators
Go
Load Capacities of Groove
(5)
Created
Allowable impact loading on groove
Go
Created
Allowable Static Thrust Load given Allowable Impact Loading on Groove
Go
Created
Allowable Static Thrust Load on Groove
Go
Created
Shaft Diameter given allowable Static Thrust Load on Groove
Go
Created
Tensile Yield Strength of Groove Material given allowable Static Thrust Load on Groove
Go
Load Capacities of Retaining Rings
(7)
Created
Allowable impact loading on ring
Go
Created
Allowable Static Thrust Load on Ring given Allowable Impact Loading
Go
Created
Allowable static thrust load on ring which is subject to shear
Go
Created
Ring Thickness given Allowable Impact Loading on Ring
Go
Created
Ring Thickness given Allowable Static Thrust Load on Ring which is subject to Shear
Go
Created
Shaft Diameter given Allowable Static Thrust Load on Ring which is subject to Shear
Go
Created
Shear Strength of Ring Material given Allowable Static Thrust Load on Ring
Go
Measurement of Ductility of Metal
(8)
Created
Area of Mild Steel bar given Local Extension
Go
Created
Gross area design strength for steel
Go
Created
Load given Brinell Hardness Number
Go
Created
Local extension of mild steel bar
Go
Created
Original Length of Mild Steel test bar given Total Extension
Go
Created
Percentage Elongation of Mild Steel Test Bar
Go
Created
Total Extension given Area of Mild Steel bar
Go
Created
Total Extension of Mild Steel Test Bar
Go
Metallic Gaskets
(2)
Created
Frictional Force given Minor diameter of bolt
Go
Created
Minor Diameter of Bolt given Working Strength
Go
Minimum Work Required for a Two-Stage Reciprocating Compressor
(8)
Verified
Cooling ratio
Go
Verified
Discharge Temperature at High Pressure Compressor given Cooling Ratio
Go
Verified
Discharge Temperature at High pressure compressor when Cooling ratio is constant
Go
Verified
Minimum Work required when Cooling Ratio is fixed
Go
Verified
Minimum Work required when Cooling Ratio is fixed and Intercooling is Perfect
Go
Verified
Minimum Work required when Temperature at end of Cooling in Intercooler is fixed
Go
Verified
Suction Temperature at Low Pressure Compressor given Cooling Ratio
Go
Verified
Suction Temperature at Low pressure compressor when Cooling ratio is constant
Go
Movement Ratio
(9)
Verified
Input Effort at Steering Wheel given Movement Ratio
Go
Verified
Movement Ratio
Go
Verified
Movement Ratio given Load and Effort
Go
Verified
Movement Ratio given Number of Teeth on Pinion
Go
Verified
Output Load at Rack given Movement Ratio
Go
Verified
Pinion Teeth given Movement Ratio
Go
Verified
Radius of Pinion Pitch Circle given Movement Ratio
Go
Verified
Radius of Steering Wheel given Movement Ratio
Go
Verified
Radius of Steering Wheel given Movement Ratio and Circular Pinion Pitch
Go
Multiple spring installations
(13)
Created
Bolt Load given Flange pressure
Go
Created
Bolt Load given Modulus of Elasticity and Increment Length
Go
Created
Bolt load in gasket joint
Go
Created
Flange pressure developed due to tightening of bolt
Go
Created
Flange pressure given Twisting moment
Go
Created
Gasket Area given Flange pressure
Go
Created
Initial Bolt Torque given Bolt Load
Go
Created
Minimum percentage compression
Go
Created
Nominal Bolt Diameter given Bolt Load
Go
Created
Number of Bolts given Flange pressure
Go
Created
Twisting Moment given Flange Pressure
Go
Created
Uncompressed gasket thickness
Go
Created
Width of u collar given uncompressed Gasket Thickness
Go
Packingless Seals
(4)
Created
Depth of U Collar given Leakage
Go
Created
Diameter of Bolt given Leakage of Fluid
Go
Created
Leakage of Fluid past Rod
Go
Created
Radial Clearance given Leakage
Go
Race Car Vehicle Dynamics
(4)
Verified
Damper angle from Vertical given wheel rate
Go
Verified
Installation Ratio given Wheel Rate
Go
Verified
Spring rate given wheel rate
Go
Verified
Wheel rate
Go
8 More Race Car Vehicle Dynamics Calculators
Go
Rates for Axle Suspension in Race Car
(10)
Verified
Rear Track Width given Roll Rate
Go
Verified
Rear Track Width given Roll Rate of Suspension with Anti-Roll Bar
Go
Verified
Roll Rate
Go
Verified
Roll Rate with Anti-Roll Bar
Go
Verified
Spring Track Width given Roll Rate
Go
Verified
Spring Track Width given Roll Rate of Suspension with Anti-Roll Bar
Go
Verified
Tyre Rate given Roll Rate
Go
Verified
Tyre Rate given Roll Rate of Suspension with Anti-Roll Bar
Go
Verified
Vertical Tyre Axle Rate given Roll Rate
Go
Verified
Vertical Tyre Axle Rate given Roll Rate of Suspension with Anti-Roll Bar
Go
Rivet Dimensions
(8)
Created
Diagonal pitch
Go
Created
Diameter of Rivet given Pitch along Caulking Edge
Go
Created
Longitudinal pitch
Go
Created
Minimum transverse pitch as per ASME boiler code if ratio of p is to d is less than 4
Go
Created
Minimum transverse pitch as per ASME boiler code if ratio of p to d is greater than 4 (SI)
Go
Created
Pitch along caulking edge
Go
Created
Rivet Diameter given Thickness of Plate
Go
Created
Transverse pitch
Go
8 More Rivet Dimensions Calculators
Go
Self Sealing Packing
(4)
Created
Diameter of bolt given Radial ring wall thickness
Go
Created
Radial ring wall thickness considering SI units
Go
Created
Radial Ring Wall Thickness given Width of U shaped collar
Go
Created
Width of U collar
Go
Simple Pendulum
(1)
Verified
Angular Acceleration of String
Go
5 More Simple Pendulum Calculators
Go
Single spring installations
(12)
Created
Actual Diameter of Spring Wire given Actual mean diameter of Conical spring
Go
Created
Actual Diameter of Spring Wire given Deflection of Spring
Go
Created
Actual mean diameter of conical spring
Go
Created
Actual Mean Diameter of Conical Spring given Deflection of Spring
Go
Created
Deflection of conical spring
Go
Created
Diameter of wire for spring given Mean diameter of Conical spring
Go
Created
Inside diameter of member given Mean diameter of Conical spring
Go
Created
Mean diameter of conical spring
Go
Created
Mean diameter of conical spring given Diameter of spring wire
Go
Created
Nominal packing cross section given Actual mean diameter of Conical spring
Go
Created
Nominal packing cross section given Mean diameter of Conical spring
Go
Created
Outer Diameter of spring wire given Actual mean diameter of Conical spring
Go
Straight Cut Sealings
(15)
Created
Absolute Viscosity given Leakage Velocity
Go
Created
Absolute Viscosity given Loss of Liquid Head
Go
Created
Area of Seal in contact with Sliding member given Leakage
Go
Created
Change in Pressure given Leakage Velocity
Go
Created
Density of Liquid given Loss of Liquid Head
Go
Created
Incremental Length in Direction of Velocity given Leakage Velocity
Go
Created
Leakage Velocity
Go
Created
Loss of Liquid Head
Go
Created
Modulus of Elasticity given Stress in Seal Ring
Go
Created
Outer Diameter of Seal Ring given Loss of Liquid Head
Go
Created
Quantity of Leakage
Go
Created
Radial Clearance given Stress in Seal Ring
Go
Created
Radius given Leakage Velocity
Go
Created
Stress in Seal Ring
Go
Created
Velocity given Leakage
Go
Suspension Geometry
(2)
Verified
Installation Ratio given Motion Ratio
Go
Verified
Motion Ratio given Installation Ratio
Go
5 More Suspension Geometry Calculators
Go
Thickness of Piston Head
(1)
Verified
Permissible Bending Stress for Piston
Go
6 More Thickness of Piston Head Calculators
Go
Thickness of Plates
(2)
Created
Thickness of plate of pressure vessel with circumferential joint
Go
Created
Thickness of plate of pressure vessel with longitudinal joint
Go
4 More Thickness of Plates Calculators
Go
Vehicle Braking Dynamics
(2)
Verified
All Wheel Braking Retardation
Go
Verified
Friction Coefficient between Wheel and Road Surface with Retardation
Go
9 More Vehicle Braking Dynamics Calculators
Go
Vehicle Cornering in Race Cars
(5)
Verified
Centre of Gravity Distance to Roll Axis given Roll Gradient
Go
Verified
Front Roll Rate given Roll Gradient
Go
Verified
Rear Roll Rate given Roll Gradient
Go
Verified
Roll Gradient
Go
Verified
Total Vehicle Mass given Roll Gradient
Go
7 More Vehicle Cornering in Race Cars Calculators
Go
Volumetric Efficiency of a Reciprocating Compressor
(2)
Verified
Clearance factor
Go
Verified
Total Volume of Refrigerant in Compressor given Clearance Factor
Go
9 More Volumetric Efficiency of a Reciprocating Compressor Calculators
Go
Work Done by a Two-Stage Reciprocating Compressor with Intercooler
(8)
Verified
Total Work done per cycle in Compressor during Complete Intercooling given Suction Temperature
Go
Verified
Total Work done per cycle in Compressor during Complete Intercooling given Suction Volume
Go
Verified
Total Work done per cycle in Compressor during incomplete Intercooling given Temperature
Go
Verified
Total Work done per cycle in Compressor during Incomplete Intercooling given Volume
Go
Verified
Work done per cycle in High Pressure Compressor during incomplete intercooling given suction Temp
Go
Verified
Work done per cycle in High pressure Compressor during incomplete intercooling given suction volume
Go
Verified
Work done per cycle in Low Pressure Compressor during incomplete intercooling given Suction Temp
Go
Verified
Work done per cycle in Low pressure Compressor during incomplete intercooling given suction volume
Go
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