✖Work done per operating cycle is the effective work done by the engine to displace the piston from its initial position in one complete cycle.ⓘ Work done per operating cycle [W]			+10% -10%
✖Engine Speed is the speed at which the crankshaft of the engine rotates.ⓘ Engine Speed [N]			+10% -10%
✖Crankshaft revolutions per power stroke is defined as the number of crankshaft rotations when the ic engine takes one complete cycle.ⓘ Crankshaft Revolutions per Power Stroke [n_R]			+10% -10%

✖Power produced by IC engine is defined as the amount of heat energy transferred or converted per unit time.ⓘ Power produced by IC engine given work done by engine [P]

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Formula

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Power produced by IC engine given work done by engine

Formula

`"P" = "W"*("N"/"n"_{"R"})`

Example

`"421103.3W"="2010.62J"*("4000rev/min"/"2")`

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Power produced by IC engine given work done by engine Solution

STEP 0: Pre-Calculation Summary

Formula Used

Power produced by IC engine = Work done per operating cycle*(Engine Speed/Crankshaft Revolutions per Power Stroke)
P = W*(N/n_R)
This formula uses 4 Variables

Variables Used

Power produced by IC engine - (Measured in Watt) - Power produced by IC engine is defined as the amount of heat energy transferred or converted per unit time.
Work done per operating cycle - (Measured in Joule) - Work done per operating cycle is the effective work done by the engine to displace the piston from its initial position in one complete cycle.
Engine Speed - (Measured in Radian per Second) - Engine Speed is the speed at which the crankshaft of the engine rotates.
Crankshaft Revolutions per Power Stroke - Crankshaft revolutions per power stroke is defined as the number of crankshaft rotations when the ic engine takes one complete cycle.

STEP 1: Convert Input(s) to Base Unit

Work done per operating cycle: 2010.62 Joule --> 2010.62 Joule No Conversion Required
Engine Speed: 4000 Revolution per Minute --> 418.879020457308 Radian per Second (Check conversion here)
Crankshaft Revolutions per Power Stroke: 2 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

P = W*(N/n_R) --> 2010.62*(418.879020457308/2)

Evaluating ... ...

P = 421103.268055936

STEP 3: Convert Result to Output's Unit

421103.268055936 Watt --> No Conversion Required

FINAL ANSWER

421103.268055936 ≈ 421103.3 Watt <-- Power produced by IC engine

(Calculation completed in 00.004 seconds)

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< 25 Engine Dynamics Calculators

Overall heat transfer coefficient of IC engine

Go Overall Heat Transfer Coefficient = 1/((1/Heat Transfer Coefficient on Gas Side)+(Thickness of Engine Wall/Thermal conductivity of material)+(1/Heat Transfer Coefficient on Coolant Side))

Rate of convection heat transfer between engine wall and coolant

Go Rate of Convection Heat Transfer = Convection Heat Transfer Coefficient*Surface Area of Engine Wall*(Engine Wall Surface Temperature-Temperature of Coolant)

Heat transfer across engine wall given overall heat transfer coefficient

Go Heat Transfer across Engine Wall = Overall Heat Transfer Coefficient*Surface Area of Engine Wall*(Gas side temperature-Coolant Side Temperature)

Inlet-Valve Mach Index

Go Mach Index = ((Cylinder Diameter/Inlet Valve Diameter)^2)*((Mean Piston Speed)/(Flow Coefficient*Sonic Velocity))

Brake Power given Mean Effective Pressure

Go Brake Power = (Brake Mean Effective Pressure*Stroke Length*Area of Cross Section*(Engine Speed))

Beale Number

Go Beale Number = Engine Power/(Average Gas Pressure*Piston Swept Volume*Engine Frequency)

Engine displacement given number of cylinders

Go Engine Displacement = Engine Bore*Engine Bore*Stroke Length*0.7854*Number of Cylinders

Indicated Thermal Efficiency given Indicated Power

Go Indicated Thermal Efficiency = ((Indicated Power)/(Mass of Fuel Supplied per Second*Calorific Value of Fuel))*100

Brake Thermal Efficiency given Brake Power

Go Brake Thermal Efficiency = (Brake Power/(Mass of Fuel Supplied per Second*Calorific Value of Fuel))*100

Rate of cooling of engine

Go Rate of Cooling = Constant for Cooling Rate*(Engine Temperature-Engine Surrounding Temperature)

Time taken for engine to cool

Go Time Required to Cool Engine = (Engine Temperature-Final Engine Temperature)/Rate of Cooling

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Go Engine RPM = (Speed of Vehicle*Gear Ratio of Transmission*336)/Tire Diameter

Kinetic Energy Stored in Flywheel of IC Engine

Go Kinetic Energy Stored in the Flywheel = (Flywheel Moment of Inertia*(Flywheel Angular Velocity^2))/2

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Go Swept Volume = (((pi/4)*Inner Diameter of Cylinder^2)*Stroke Length)

Indicated specific fuel consumption

Go Indicated Specific Fuel Consumption = Fuel Consumption in IC engine/Indicated Power

Indicated Thermal Efficiency given Relative Efficiency

Go Indicated Thermal Efficiency = (Relative Efficiency*Air Standard Efficiency)/100

Relative Efficiency

Go Relative Efficiency = (Indicated Thermal Efficiency/Air Standard Efficiency)*100

Brake specific fuel consumption

Go Brake Specific Fuel Consumption = Fuel Consumption in IC engine/Brake Power

Indicated Power given Mechanical Efficiency

Go Indicated Power = Brake Power/(Mechanical Efficiency/100)

Brake Power given Mechanical Efficiency

Go Brake Power = (Mechanical Efficiency/100)*Indicated Power

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Go Mechanical Efficiency = (Brake Power/Indicated Power)*100

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Go Specific Power Output = Brake Power/Area of Cross Section

Mean piston speed

Go Mean Piston Speed = 2*Stroke Length*Engine Speed

Friction Power

Go Friction Power = Indicated Power-Brake Power

Peak torque of engine

Go Peak Torque of Engine = Engine Displacement*1.25

Power produced by IC engine given work done by engine Formula

Power produced by IC engine = Work done per operating cycle*(Engine Speed/Crankshaft Revolutions per Power Stroke)
P = W*(N/n_R)

What is the power produced by the IC engine?

The power produced by the engine is equal to the work done per operating cycle times the number of operating cycles per second. If N is the number of revolutions per second, and Nc is the number of revolutions per power stroke, the number of power strokes per second is just their ratio.

How to Calculate Power produced by IC engine given work done by engine?

Power produced by IC engine given work done by engine calculator uses Power produced by IC engine = Work done per operating cycle*(Engine Speed/Crankshaft Revolutions per Power Stroke) to calculate the Power produced by IC engine, The Power produced by IC engine given work done by engine formula is equal to the work done per operating cycle times the number of operating cycles per second. Power produced by IC engine is denoted by P symbol.

How to calculate Power produced by IC engine given work done by engine using this online calculator? To use this online calculator for Power produced by IC engine given work done by engine, enter Work done per operating cycle (W), Engine Speed (N) & Crankshaft Revolutions per Power Stroke (n_R) and hit the calculate button. Here is how the Power produced by IC engine given work done by engine calculation can be explained with given input values -> 316253.7 = 2010.62*(418.879020457308/2).

FAQ

What is Power produced by IC engine given work done by engine?

The Power produced by IC engine given work done by engine formula is equal to the work done per operating cycle times the number of operating cycles per second and is represented as P = W*(N/n_R) or Power produced by IC engine = Work done per operating cycle*(Engine Speed/Crankshaft Revolutions per Power Stroke). Work done per operating cycle is the effective work done by the engine to displace the piston from its initial position in one complete cycle, Engine Speed is the speed at which the crankshaft of the engine rotates & Crankshaft revolutions per power stroke is defined as the number of crankshaft rotations when the ic engine takes one complete cycle.

How to calculate Power produced by IC engine given work done by engine?

The Power produced by IC engine given work done by engine formula is equal to the work done per operating cycle times the number of operating cycles per second is calculated using Power produced by IC engine = Work done per operating cycle*(Engine Speed/Crankshaft Revolutions per Power Stroke). To calculate Power produced by IC engine given work done by engine, you need Work done per operating cycle (W), Engine Speed (N) & Crankshaft Revolutions per Power Stroke (n_R). With our tool, you need to enter the respective value for Work done per operating cycle, Engine Speed & Crankshaft Revolutions per Power Stroke and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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