An engine of mass `6.5` metric ton is going up an incline of 5 in 13 at the rate of `9km//h` Calculate the power of the engine if `mu = 1//2` and `g = 9.8m//s^(2)`.

An engine of weight 6.5 metric ton is going up an inclined plane of 5 in 13 at the rate of 9km//h . If the coefficient of friction is (1)/(120 . Calculate the power of the engine. Take g=9.8m//s^(2)

An engine of mass 500kg is going up an inclined plane,3 in 5 at the rate of 36kmph.If the co-efficient of friction is 0.5.The power of engine is

A car weighting 1120 kg is going up an incline of 1 in 56 at the rate of 20 m in 2s. Find the power of the engine if frictional force is 64 N.

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

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 car weighing 1120kg is going up an incline of 1 in 56 at the rate of 20m in 2s . Find the power of the engine if frictional force is 64N .

An engine of one metric ton is going up an inclined plane of slope 1 in 2 at the rate of 36km h^(-1) If the coefficient of friction is 1//sqrt3 calculate the power of the engine in k W .

Calculate the power of an engine , which can just pull a train of mass 5000 quintals up an incline of 1 in 50 at the rate of 54 km//h . The resistance due to friction is 0.8 N //"quintal" . Take g = 9.8 m//s^(2) .