Calculators Created by sanjay shiva

national institute of technology hamirpur (NITH ), hamirpur , himachal pradesh
127
Formulas Created
132
Formulas Verified
37
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 127 and verified 132 calculators across 37 different categories till date.
Created Actual cross-sectional area of bolts using the root diameter of thread
Go
Created Bolt load in the design of flange for gasket seating
Go
Created Bolt load under operating condition
Go
Created Bolt load under operating condition in terms of hydrostatic end force
Go
Created Deflection of spring in terms of initial bolt load to seal the gasket joint
Go
Created Gasket width in terms of actual cross-sectional area of bolts
Go
Created Hydrostatic contact force in terms of bolt load under operating condition
Go
Created Hydrostatic end force
Go
Created Hydrostatic end force in terms of bolt load under operating condition
Go
Created Initial bolt load to seat the gasket joint
Go
Created Least diameter of unthreaded portion
Go
Created Least diameter of unthreaded portion in trems of bolt load
Go
Created Load on bolts based on hydrostatic end force
Go
Created Test pressure in terms of bolt load
Go
Created Total cross-sectional area of bolt at root of thread
Go
Created Width of u collar in terms of initial bolt load to seat the gasket joint
Go
Created Bolt load in gasket joint
Go
Created Bolt load in terms of flange pressure
Go
Created Bolt load in terms of modulus of elasticity and increment length
Go
Created Flange pressure developed due to tightening of bolt
Go
Created Flange pressure in terms of twisting moment
Go
Created Gasket area in terms of flange pressure
Go
Created Initial bolt torque in terms of bolt load
Go
Created Nominal bolt diameter in terms of bolt load
Go
Created Number of bolts in terms of flange pressure
Go
Created Twisting moment in terms of flange pressure
Go
Verified Friction coefficient between wheel, road surface given normal force at front wheel-all wheel brakes
Go
Verified Friction coefficient between wheel, road surface given normal force at rear wheel-all wheel brakes
Go
Verified Friction coefficient between wheel, road surface given retardation-brakes applied on all wheels
Go
Verified Height of C.G from road surface given normal reaction at front wheel-brakes applied on all wheels
Go
Verified Height of C.G from road surface given normal reaction at rear wheel-brakes applied on all wheels
Go
Verified Horizontal distance of C.G. From rear axle given normal reaction at front wheel-brakes on all wheel
Go
Verified Horizontal distance of C.G. From rear axle given normal reaction at rear wheel-brakes on all wheel
Go
Verified Normal reaction force on front wheel when brakes applied on all wheels
Go
Verified Normal reaction force on rear wheel when brakes applied on all wheels
Go
Verified Retardation produced by braking when brakes applied on all the wheels
Go
Verified Slope of road given normal reaction at the front wheel when brakes applied on all wheels
Go
Verified Slope of road given normal reaction at the rear wheel when brakes applied on all wheels
Go
Verified Weight of the vehicle given normal reaction at front wheel when brakes applied on all wheels
Go
Verified Weight of the vehicle given normal reaction at rear wheel when brakes applied on all wheels
Go
Verified Wheel base given normal reaction at the front wheel when brakes applied on all wheels
Go
Verified Wheel base given normal reaction at the rear wheel when brakes applied on all wheels
Go
Verified Coefficient of friction between wheels and road surface given normal force at front wheel
Go
Verified Coefficient of friction between wheels and road surface given normal force at rear wheel
Go
Verified Coefficient of friction between wheels and road surface given retardation-only front wheel brakes
Go
Verified Height of centre of gravity from road surface given normal reaction at front wheel
Go
Verified Height of centre of gravity from road surface given normal reaction at rear wheel
Go
Verified Height of centre of gravity from road surface given retardation-brakes applied on front wheel only
Go
Verified Horizontal distance of C.G. From rear axle given normal reaction at the front wheel
Go
Verified Horizontal distance of C.G. From rear axle given normal reaction at the rear wheel
Go
Verified Horizontal distance of C.G. From rear axle given retardation-brakes applied on front wheels only
Go
Verified Normal reaction force on front wheel
Go
Verified Normal reaction force on rear wheel
Go
Verified Retardation produced by braking
Go
Verified Slope of road given normal reaction at the front wheel
Go
Verified Slope of road given normal reaction at the rear wheel
Go
Verified Slope of road given retardation when front brakes only are applied
Go
Verified Weight of the vehicle given normal reaction at front wheel
Go
Verified Weight of the vehicle given normal reaction at rear wheel
Go
Verified Wheel base of the vehicle given normal reaction at the front wheel
Go
Verified Wheel base of the vehicle given normal reaction at the rear wheel
Go
Verified Wheel base of the vehicle given retardation when front brakes only are applied
Go
Verified Coefficient of friction between wheels and road surface given retardation-only rear wheel brakes
Go
Verified Friction coefficient between wheel, road surface given normal force at front wheel-rear brakes only
Go
Verified Friction coefficient between wheel, road surface given normal force at rear wheel-rear brakes only
Go
Verified Height of C.G from road surface given normal reaction at front wheel-brakes applied on rear wheel
Go
Verified Height of C.G from road surface given normal reaction at rear wheel-brakes applied on rear wheel
Go
Verified Height of centre of gravity from road surface given retardation-brakes applied on rear wheel only
Go
Verified Horizontal distance of C.G. From rear axle given normal reaction at front wheel-only rear brakes
Go
Verified Horizontal distance of C.G. From rear axle given normal reaction at rear wheel-only rear brakes
Go
Verified Horizontal distance of C.G. From rear axle given retardation-only rear brakes applied
Go
Verified Normal reaction force on front wheel when brakes applied on rear wheels only
Go
Verified Normal reaction force on rear wheel when brakes applied on rear wheels only
Go
Verified Retardation produced by braking when brakes applied on rear wheel only
Go
Verified Slope of road given normal reaction at the front wheel when brakes applied on rear wheel only
Go
Verified Slope of road given normal reaction at the rear wheel when brakes applied on rear wheel only
Go
Verified Weight of the vehicle given normal reaction at front wheel when brakes applied on rear wheel only
Go
Verified Weight of the vehicle given normal reaction at rear wheel when brakes applied on rear wheel only
Go
Verified Wheel base given normal reaction at the front wheel when brakes applied on rear wheels only
Go
Verified Wheel base given normal reaction at the rear wheel when brakes applied on rear wheels only
Go
Verified Wheel base of the vehicle given retardation when rear brakes only are applied
Go
Verified Frequency of a mass attached to the closely coiled helical spring which is hanged vertically
Go
Verified Frequency of a mass attached to the spring of a given mass
Go
Verified Periodic time of a mass attached to the closely coiled helical spring which is hanged vertically
Go
Verified Periodic time of a mass attached to the spring of a given mass
Go
2 More Closely-coiled Helical Spring Calculators
Go
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 Cornering Calculators
Go
Verified Effective load on gear tooth buckingham method
Go
28 More Design of gear Calculators
Go
Verified Ratio factor for internal gears
Go
15 More Design of Machine Elements Calculators
Go
Verified Lead angle of worm in terms of lead of worm and pitch circle diameter of worm
Go
Verified Lead of worm in terms of axial module and number of starts on worm
Go
Verified Lead of worm in terms of axial pitch and number of starts on worm
Go
5 More Design of Worm Gear Calculators
Go
Verified Angular acceleration of the driven shaft
Go
Verified Angular velocity of driving shaft
Go
Verified Angular velocity of driving shaft given angular acceleration of driven shaft
Go
Verified Angular velocity of the driven shaft
Go
Verified Velocity ratio of hooke's joint
Go
Created Diameter of bolt in terms of 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 Frictional force exerted by soft packing on reciprocating rod
Go
Created Fluid pressure in terms of friction resistance
Go
Created Fluid pressure in terms of torsional resistance
Go
Created Friction resistance
Go
Created Seal resistance
Go
Created Torsional resistance in rotary motion friction
Go
Created Torsional resistance in terms of fluid pressure
Go
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 in terms of 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 in terms of Heat Transfer
Go
Verified Temperature at outside surface of tube in terms of Heat Transfer
Go
Verified Temperature at the outside surface of the tube in terms of heat transfer
Go
Verified Temperature of the refrigerant vapour condensing film in terms of 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
Created Amount of leakage of fluid through face seal
Go
Created Inside diameter of gasket in terms of shape factor
Go
Created Internal hydraulic pressure in terms of zero leakage of fluid through face seal
Go
Created Kinematic viscosity in terms of 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 in terms of shape factor
Go
Created Outside radius of rotating member in terms of 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 a circular or annular gasket
Go
Created Thickness of fluid between members in terms of power loss due to leakage of fluid through face seal
Go
Created Thickness of fluid between members in terms of 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
Created Allowable impact loading on groove
Go
Created Allowable impact loading on ring
Go
Created Allowable static thrust load in terms of allowable impact loading on groove
Go
Created Allowable static thrust load on ring in terms of allowable impact loading
Go
Created Allowable static thrust load on ring which is subject to shear
Go
Created Allowable static thrust load on the groove
Go
Created Depth of groove in terms of allowable impact loading on groove
Go
Created Depth of groove in terms of allowable static thrust load and allowable impact loading on groove
Go
Created Depth of groove in terms of allowable static thrust load on groove
Go
Created Factor of safety in terms of allowable static thrust load on ring
Go
Created Factor of safety in terms of allowable static thrust load on the groove
Go
Created Ring thickness in terms of allowable impact loading on ring
Go
Created Ring thickness in terms of allowable static thrust load on ring which is subject to shear
Go
Created Shaft diameter in terms of allowable static thrust load on ring which is subject to shear
Go
Created Shaft diameter in terms of allowable static thrust load on the groove
Go
Created Shear strength of ring material in terms of allowable static thrust load on ring
Go
Created Tensile yield strength of groove material in terms of allowable static thrust load on the groove
Go
1 More Load capacities of retaining rings Calculators
Go
Created Design of shaft using ASME code
Go
18 More Machine Design Calculators
Go
Verified Zero bias junction voltage
Go
21 More Material Science and Metallurgy Calculators
Go
Created Area of mild steel bar in terms of local extension
Go
Created Gross area design strength for steel
Go
Created Load in terms of brinell hardness number
Go
Created Local extension of mild steel bar
Go
Created Original length of mild steel test bar in terms of total extension
Go
Created Percentage elongation of mild steel test bar
Go
Created Total extension in terms of area of mild steel bar
Go
Created Total Extension of Mild Steel Test Bar
Go
Created Frictional force in terms of minor diameter of bolt
Go
Created Minor diameter of bolt in terms of working strength
Go
Verified Cooling ratio
Go
Verified Discharge Temperature at High pressure compressor in terms of Cooling ratio
Go
Verified Discharge Temperature at High pressure compressor when Cooling ratio is constant
Go
Verified Minimum work required when temperature at the end of cooling in intercooler is fixed
Go
Verified Minimum work required when the cooling ratio is fixed
Go
Verified Minimum work required when the cooling ratio is fixed and intercooling is perfect
Go
Verified Suction Temperature at low pressure compressor in terms of Cooling ratio
Go
Verified Suction Temperature at Low pressure compressor when Cooling ratio is constant
Go
Verified Input effort at steering wheel given movement ratio
Go
Verified Movement ratio
Go
Verified Movement ratio in terms of load and effort
Go
Verified Movement ratio in terms of number of teeth on pinion
Go
Verified Output load at rack in terms of 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
Created Depth of U collar in terms of leakage
Go
Created Diameter of bolt in terms of leakage of fluid
Go
Created Leakage of fluid past a rod
Go
Created Radial clearance in terms of leakage
Go
Piston (1)
Verified Permissible bending stress for piston
Go
41 More Piston Calculators
Go
Verified Damper angle from Vertical given wheel rate
Go
Verified Installation ratio in terms of wheel rate
Go
Verified Spring rate given wheel rate
Go
Verified Wheel rate
Go
8 More Race Car Vehicle Dynamics Calculators
Go
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
Created Diagonal pitch
Go
Created Diameter of rivet in terms of pitch along caulking edge
Go
Created Longitudinal pitch
Go
Created Pitch along caulking edge
Go
Created Rivet diameter in terms of thickness of plate
Go
13 More Riveted Joints Calculators
Go
Created Diameter of bolt in terms of radial ring wall thickness
Go
Created Radial ring wall thickness considering SI units
Go
Created Radial ring wall thickness in terms of width of U shaped collar
Go
Created Width of U collar
Go
Verified Angular acceleration of the string
Go
5 More Simple Pendulum Calculators
Go
Created Actual diameter of spring wire in terms of actual mean diameter of conical spring
Go
Created Actual diameter of spring wire in terms of deflection of spring
Go
Created Actual mean diameter of conical spring
Go
Created Actual mean diameter of conical spring in terms of deflection of spring
Go
Created Deflection of conical spring
Go
Created Diameter of wire for spring in terms of mean diameter of conical spring
Go
Created Inside diameter of member in terms of mean diameter of conical spring
Go
Created Mean diameter of conical spring
Go
Created Mean diameter of conical spring in terms of diameter of spring wire
Go
Created Nominal packing cross section in terms of actual mean diameter of conical spring
Go
Created Nominal packing cross section in terms of mean diameter of conical spring
Go
Created Outer diameter of spring wire in terms of actual mean diameter of conical spring
Go
Created Absolute viscosity in terms of leakage velocity
Go
Created Absolute viscosity in terms of loss of liquid head
Go
Created Area of seal in contact with sliding member in terms of leakage
Go
Created Change in pressure in terms of leakage velocity
Go
Created Density of liquid in terms of loss of liquid head
Go
Created Incremental length in direction of velocity
Go
Created Incremental length in direction of velocity terms of leakage velocity
Go
Created Leakage velocity
Go
Created Loss of liquid head
Go
Created Modulus of elasticity in terms of stress in seal ring
Go
Created Outer diameter of seal ring in terms of loss of liquid head
Go
Created Quantity of leakage
Go
Created Radial clearance in terms of stress in seal ring
Go
Created Radius in terms of leakage velocity
Go
Created Stress in seal ring
Go
Created Velocity in terms of leakage
Go
Created Minimum percentage compression
Go
Created Uncompressed gasket thickness
Go
Created Width of u collar in terms of uncompressed gasket thickness
Go
Verified Installation ratio in terms of Motion ratio
Go
Verified Motion ratio in terms of installation ratio
Go
5 More Suspension Geometry Calculators
Go
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 Plate Calculators
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 Transverse pitch
Go
2 More Transverse Pitch Calculators
Go
Verified Clearance factor
Go
Verified Total volume of Refrigerant in compressor in terms of clearance factor
Go
9 More Volumetric Efficiency of a Reciprocating Compressor Calculators
Go
Verified Total Work done per cycle in Compressor during complete intercooling in terms of Suction Temperature
Go
Verified Total Work done per cycle in Compressor during complete intercooling in terms of Suction volume
Go
Verified Total Work done per cycle in Compressor during incomplete intercooling in terms of Temperature
Go
Verified Total Work done per cycle in Compressor during incomplete intercooling in terms of 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
Share Image
Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Copied!