Calculators Created by Abhishek Dharmendra Bansile

Created Average Coefficient of heat transfer for vapour condensing outside of horizontal tubes of diameter D

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Created Heat Rejection Factor

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Created Heat Rejection Factor given COP

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Created Heat Transfer in Condenser given Overall Heat Transfer Coefficient

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Created Heat Transfer in Condenser given 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 Load on Condenser

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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 Vertical Surface

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Created Overall Temperature difference given 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 Refrigeration Capacity given Load on Condenser

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Created Temperature at Inside Surface of Tube given Heat Transfer

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Created Temperature at Outside Surface of Tube given Heat Transfer

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Created Temperature at Outside Surface of Tube provided Heat Transfer

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Created Temperature of Refrigerant Vapour condensing Film given 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 Work done by Compressor given Load on Condenser

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Created Swept Volume

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20 More Important Formulas of Engine Dynamics Calculators

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Verified Wheel Flop

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8 More Angular Velocity Calculators

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Verified Declination angle

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Verified Hour angle

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6 More Basics Calculators

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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 Duct at Section 2 using Continuity Equation

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Created Velocity of Air at Duct Section 1 using Continuity Equation

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Created Velocity of Air at Duct Section 2 using Continuity Equation

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Created Cutting Speed in Turning

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9 More Cutting Operation Calculators

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Verified Induced Inflow Ratio in Hover

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18 More Design Process 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 Yarn Count Calculators

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Created Clearance factor in compressor

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Created Clearance Volume given Clearance Factor

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Created Compression Ratio given Pressure

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Created Compression Ratio given Volume

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Created Discharge Pressure given Compression Ratio

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Created Discharge Volume given Compression Ratio

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Created Piston Displacement Volume given Clearance Factor

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Created Piston Displacement Volume given Volumetric Efficiency in Compressor

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Created Suction Pressure given Compression Ratio

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Created Suction Volume given Compression Ratio

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Created Suction Volume given Volumetric Efficiency in Compressor

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Created Volumetric efficiency in compressor

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Verified Maximum Load taken by Cotter Joint given Spigot Diameter, Thickness and Stress

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10 More Forces and Loads on Joint Calculators

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Verified Radius of Sphere of Influence

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7 More Fundamental Parameters 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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11 More Industrial Parameters Calculators

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Verified Diffuser Efficiency

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3 More Inlets Calculators

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Verified Diameter of Socket Collar given Rod Diameter

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Verified Width of Cotter by Bending Consideration

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25 More Joint Geometry and Dimensions Calculators

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Created Cooling ratio

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Created Discharge Temperature at High Pressure Compressor given 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 Cooling Ratio is fixed

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Created Minimum Work required when Cooling Ratio is fixed and Intercooling is Perfect

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Created Minimum Work required when Temperature at end of Cooling in Intercooler is fixed

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Created Suction Temperature at Low Pressure Compressor given Cooling Ratio

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Created Suction Temperature at Low pressure compressor when Cooling ratio is constant

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Verified Velocity Coefficient given Nozzle Efficiency

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7 More Nozzle Calculators

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Created Equivalent Diameter of Circular Duct for Rectangular Duct when Quantity of Air is Same

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Created Equivalent Diameter of Circular Duct for Rectangular Duct when Velocity of Air is Same

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Created Friction Factor for Laminar Flow in Duct

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Created Friction Factor for Turbulent Flow in Duct

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Created Quantity of Air given Velocity

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Created Reynolds Number given Friction Factor for Laminar Flow

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Created Reynolds Number in Duct

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Created Velocity Pressure in Ducts

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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 given Isentropic Power for double-acting Compressor

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Created Isentropic Work done given 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 given Isothermal Power for Double-acting Compressor

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Created Isothermal Work done given Isothermal Power for Single-acting Compressor

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Created Polytropic Work done given Indicated Power for Double-acting Compressor

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Created Polytropic Work done given Indicated Power for Single-acting Compressor

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Verified Mach Number of Moving Object

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16 More Preliminary Aerodynamics Calculators

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Created Dynamic Loss Coefficient given Dynamic Pressure Loss

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Created Dynamic Loss Coefficient given Equivalent Additional Length

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Created Dynamic Pressure Loss

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Created Length of Duct given 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 at Discharge or Exit

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Created Pressure Loss at Suction

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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 Friction in Ducts

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Created Pressure Loss due to Gradual Contraction given Pressure Loss Coefficient at Section 1

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Created Pressure Loss due to Gradual Contraction given Velocity of Air at Point 2

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Created Pressure Loss due to Sudden Contraction given Velocity of Air at Point 1

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Created Pressure Loss due to Sudden Contraction given 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 Inlet to Duct

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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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15 More Rivet Dimensions Calculators

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Created Actual volume of refrigerant

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Created Actual Volume of Refrigerant given Volumetric Efficiency

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Created Clearance factor

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Created Clearance Volume of Compressor given Stroke Volume

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Created Expanded Clearance Volume given Actual Volume of Compressor

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Created Stroke Volume of Compressor

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Created Stroke Volume of Compressor given Volumetric efficiency

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Created Suction Temperature given Work done by Compressor

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Created Total Volume of Refrigerant in Compressor given Actual Volume

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Created Total Volume of Refrigerant in Compressor given Clearance Factor

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Created Total Volume of Refrigerant in Compressor given Stroke Volume of Compressor

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Created Volumetric Efficiency in Compressor given Clearance Factor

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Created Work done by Reciprocating Compressor given Suction Temperature

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Created Work Done by Reciprocating Compressor given Volume before Compression and after Expansion

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Created Work Done given Polytropic Index for Compression and Expansion

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Created Work done during isentropic compression

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Created Work done during isentropic Compression given Specific Heat Capacity Constant Pressure

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Created Work done during Isothermal Compression given Pressure and Volume Ratio

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Created Work done during Isothermal Compression given Temperature and Compression Ratio

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Created Work done during Isothermal Compression given Temperature and Pressure Ratio

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Created Work done during Isothermal Compression given Temperature and Volume Ratio

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Created Work done during Isothermal Compression given 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 given Suction Temperature

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Created Total Work done per cycle in Compressor during Complete Intercooling given Suction Volume

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Created Total Work done per cycle in Compressor during incomplete Intercooling given Temperature

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Created Total Work done per cycle in Compressor during Incomplete Intercooling given 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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List of Calculators by Abhishek Dharmendra Bansile