A 100 metric ton engine is moving up a s...

A 100 metric ton engine is moving up a slope of gradient `5^(@)` at a speed of 100 metre`//` hour. The coefficient of friction between the engine and the rails is 0.1. If engine has an efficiency of `4%` for converting heat into work, find the amount of coal the engine has to burn in one hour. Burning of 1 kg coal yields 50000J.

Similar Questions

Explore conceptually related problems

An engine of one metric ton is going up an inclined plane, 1 in 2 at the rate of 36 kmph. If the coefficient of friction is 1//sqrt(3) , the power of engine is

A 10 metric ton truck drives up a hilly road of gradient 1 in 50 at a speed of 36kmh^(-1) if the co-efficient of kinetic friction between the road and tyres is 0.2, calculate the power delivered by the engine (g=10ms^(-2))

A 10 metric ton truck drives up a hilly road of gradient 1 in 50 at a speed of 36kmh^(-1) if the coefficient of kinetic friction between the road and tyres is 0.2, calculate the power delivered by the engine (g=10ms^(-2))

A 10 metric ton truck drives up a hilly road of gradient 1 in 50 at a speed of 36kmh^(-1) if the conefficient of kinetic friction between the road and years is 0.2, calculate the power delivered by the engine (g=10ms^(-2))

A engine has an efficiency of 1//3 . The amount of work this engine can perform per kilocalorie of heat input is

A car of mass 500 kg is moving up along an inclined surface of slope 1/(25) at a constant speed of 72 km*h^(-1) . If the coefficient of friction between the road and the car wheel is 0.1 , find the power of the car engine (g= 9.8 m*s^(-2) ).

Similar Questions

Recommended Questions