Calculators Created by Abhishek Dharmendra Bansile

Vishwakarma Institute of Information Technology, Pune (VIIT Pune), Pune
https://www.linkedin.com/in/abhishek-bansile-159673204
116
Formulas Created
17
Formulas Verified
28
Across Categories

List of Calculators by Abhishek Dharmendra Bansile

Following is a combined list of all the calculators that have been created and verified by Abhishek Dharmendra Bansile. Abhishek Dharmendra Bansile has created 116 and verified 17 calculators across 28 different categories till date.
Verified Induced Inflow Ratio in Hover
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13 More Aircraft Conceptual Design Calculators
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Verified Wheel Flop
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5 More Automobile Calculators
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Created Clearance factor in compressor
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Created Clearance volume in terms of clearance factor
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Created Compression ratio in terms of pressure
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Created Compression ratio in terms of volume
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Created Discharge pressure in terms of compression ratio
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Created Discharge volume in terms of compression ratio
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Created Piston displacement volume in terms of clearance factor
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Created Piston displacement volume in terms of volumetric efficiency in compressor
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Created Suction pressure in terms of compression ratio
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Created Suction volume in terms of compression ratio
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Created Suction volume in terms of volumetric efficiency in compressor
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Created Volumetric efficiency in compressor
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Verified Diffuser Efficiency
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16 More Basics of gas turbines Calculators
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Created Heat Rejection Factor
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Created Heat Rejection Factor in terms of COP
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Created Load on Condenser
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Created Refrigeration Capacity in terms of Load on Condenser
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Created Work done by Compressor in terms of Load on Condenser
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Created Cross-sectional area of duct at section 1 using continuity equation
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Created Cross-sectional area of the duct at section 2 using the continuity equation
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Created Velocity of air at duct section 1 using the continuity equation
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Created Velocity of air at duct section 2 using the continuity equation
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Verified Diameter of socket collar given rod diameter
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Verified Maximum load taken by cotter joint given spigot diameter, thickness and stress
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Verified Width of cotter by bending consideration
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40 More Design of Cotter Joint Calculators
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Verified Denier Count
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Verified Dram Count
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Verified Grex Count
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2 More Direct Count System Calculators
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Ducts (12)
Created Equivalent Diameter of a Circular Duct for a Rectangular Duct when the quantity of air is same
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Created Equivalent Diameter of a Circular Duct for a Rectangular Duct when velocity of air is same
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Created Friction factor for laminar flow in the duct
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Created Friction factor for turbulent flow in the duct
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Created Length of the duct in terms of pressure loss due to friction
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Created Pressure drop in circular duct
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Created Pressure drop in square duct
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Created Pressure loss due to friction in ducts
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Created Quantity of air in terms of velocity
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Created Reynolds Number in duct
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Created Reynolds Number in terms of friction factor for laminar flow
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Created Velocity Pressure in the ducts
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1 More Ducts Calculators
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Created Dynamic loss coefficient in terms of equivalent additional length
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Created Dynamic loss coefficient in terms of the dynamic pressure loss
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Created Dynamic Pressure loss
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Created Pressure loss at suction
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Created Pressure loss at the discharge or exit
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Created Pressure loss coefficient at inlet of duct
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Created Pressure loss coefficient at outlet of duct
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Created Pressure loss due to gradual contraction in terms of pressure loss coefficient at section 1
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Created Pressure loss due to gradual contraction in terms of velocity of air at point 2
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Created Pressure loss due to sudden contraction in terms of Velocity of air at point 1
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Created Pressure loss due to sudden contraction in terms of velocity of air at point 2
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Created Pressure loss due to sudden enlargement
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Created Total pressure required at the inlet to the duct
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Created Average Coefficient of heat transfer for vapour condensing outside of horizontal tubes of diameter D
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Created Heat Transfer in Condenser in terms of Overall Heat Transfer Coefficient
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Created Heat Transfer in Condenser in terms of Overall thermal resistance
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Created Heat transfer takes place from outside surface to inside surface of tube
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Created Heat Transfer takes place from vapour refrigerant to outside of tube
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Created Mean Surface area of Tube when Heat transfer takes place from outside to inside surface of tube
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Created Overall coefficient of heat transfer for condensation on a vertical surface
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Created Overall Temperature difference in terms of Heat Transfer
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Created Overall Temperature difference when Heat Transfer from vapour refrigerant to outside of tube
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Created Overall Temperature difference when Heat transfer takes place from outside to inside surface of tube
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Created Overall thermal resistance in condenser
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Created Temperature at inside surface of tube in terms of Heat Transfer
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Created Temperature at outside surface of tube in terms of Heat Transfer
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Created Temperature at the outside surface of the tube in terms of heat transfer
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Created Temperature of the refrigerant vapour condensing film in terms of heat transfer
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Created Thickness of Tube when Heat transfer takes places from outside to inside surface of tube
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Created Swept Volume
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4 More IC Engine Calculators
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Verified Decimal Count
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Verified French Count
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Verified Indirect Count
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Verified Metric Count
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Verified Woollen Count
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Verified Worsted Count
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Verified General Sewing Data
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60 More Industrial Engineering Calculators
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Verified Velocity coefficient when nozzle efficiency is present
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28 More Jet propulsion cycles Calculators
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Created Cutting speed in turning
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7 More Machining Time Calculators
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Verified Mach number of moving object
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16 More Material Science and Metallurgy Calculators
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Verified Radius of Sphere of Influence
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2 More Mechanical Calculators
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Created Cooling ratio
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Created Discharge Temperature at High pressure compressor in terms of Cooling ratio
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Created Discharge Temperature at High pressure compressor when Cooling ratio is constant
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Created Minimum work required when temperature at the end of cooling in intercooler is fixed
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Created Minimum work required when the cooling ratio is fixed
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Created Minimum work required when the cooling ratio is fixed and intercooling is perfect
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Created Suction Temperature at low pressure compressor in terms of Cooling ratio
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Created Suction Temperature at Low pressure compressor when Cooling ratio is constant
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Created Indicated Power for double-acting compressor
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Created Indicated Power for single-acting compressor
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Created Isentropic Power for double-acting compressor
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Created Isentropic Power for single-acting compressor
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Created Isentropic Work done in terms of Isentropic Power for double-acting Compressor
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Created Isentropic Work done in terms of Isentropic Power for single-acting Compressor
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Created Isothermal power for double-acting compressor
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Created Isothermal power for single-acting compressor
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Created Isothermal Work done in terms of Isothermal Power for double-acting Compressor
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Created Isothermal Work done in terms of Isothermal Power for single-acting Compressor
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Created Polytropic Work done in terms of Indicated Power for double-acting Compressor
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Created Polytropic Work done in terms of Indicated Power for Single-acting Compressor
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Verified Maximum stress when subjected to eccentric axial load
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21 More Rectangular Section Is Subjected To Eccentric Load Calculators
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Verified Diameter of rivets for lap joint
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17 More Riveted Joints Calculators
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Verified Declination angle
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Verified Hour angle
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6 More Solar Energy Systems Calculators
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Created Actual volume of refrigerant
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Created Actual volume of refrigerant in terms of Volumetric Efficiency
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Created Clearance factor
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Created Clearance Volume of compressor in terms of Stroke Volume
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Created Expanded Clearance Volume in terms of actual volume of Compressor
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Created Stroke Volume of Compressor
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Created Stroke Volume of Compressor in terms of Volumetric efficiency
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Created Total volume of Refrigerant in compressor in terms of Actual Volume
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Created Total volume of Refrigerant in compressor in terms of clearance factor
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Created Total volume of Refrigerant in compressor in terms of Stroke Volume of Compressor
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Created Volumetric efficiency in compressor in terms of clearance factor
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Created Work done during isentropic compression
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Created Work done during isentropic compression in terms of specific heat capacity constant pressure
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Created Work done during isothermal compression in terms of pressure and volume ratio
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Created Work done during isothermal compression in terms of temperature and compression ratio
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Created Work done during isothermal compression in terms of temperature and pressure ratio
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Created Work done during isothermal compression in terms of temperature and volume ratio
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Created Work done during isothermal compression in terms of volume and pressure ratio
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Created Work done during polytropic compression
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Created Total Work done per cycle in Compressor during complete intercooling in terms of Suction Temperature
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Created Total Work done per cycle in Compressor during complete intercooling in terms of Suction volume
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Created Total Work done per cycle in Compressor during incomplete intercooling in terms of Temperature
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Created Total Work done per cycle in Compressor during incomplete intercooling in terms of Volume
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Created Work done per cycle in High Pressure Compressor during incomplete intercooling given suction Temp
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Created Work done per cycle in High pressure Compressor during incomplete intercooling given suction volume
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Created Work done per cycle in Low Pressure Compressor during incomplete intercooling given Suction Temp
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Created Work done per cycle in Low pressure Compressor during incomplete intercooling given suction volume
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Created Suction Temperature in terms of work done by compressor
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Created Work done by Reciprocating Compressor in terms of suction temperature
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Created Work Done by Reciprocating Compressor in terms of volume before compression and after expansion
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Created Work done in terms of polytropic index for compression and expansion
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