When a car moving with a speed of `36km//h` reaches an upwards inclined road of angle `30^(@)` its engine is switched off If coefficient of frition involved is `0.1` how much distance will the car move before coming to rest Given `g = 10m//s^(2)`.

When an automobile moving with a speed of 36km//h reaches an upward inclined road of angle 30^(@) , its engine is switched off. If the coefficient of friction is 0.1, how much distance will the automobile move before coming to rest ? Take g=10ms^(-2) .

A car is moving at a speed of 60 km//h traversing a circular road track of radius 60,m. The minumum coefficient of friction to prevent the skidding of the car is (g=10 m//s^2 )

An automobile moving at a speed of 72kmh^(-1) reaches the foot of a smooth incline, when the engine is switched off. How much distance does the automobile go up the incline before coming to rest. The angle of inclination with horizontal is 30^(@) and g=9.8 ms^(-2) ?

For traffic moving at 60km//h if the radius of the curve is 0.1km what is the correct angle of banking of the road Given g = 10m//s^(2) .

Consider a car moving along a straight horizontal road with a speed of 36 km/h. If the coefficient of static friction between road and tyers is 0.4, the shortest distance in which the car can be stopped is (Take g=10 m//s2)

A car going at a speed of 6m/s when it encounters a 15m slope of angle 30^(@) . The friction coefficient between the road an tyre is 0.5. the driver applies the brakes. The minimum speed of car with with which it can reach the bottom is (g=10m//s^(2))

S car is moving at an average speed of 56(4/5) km/h. How much distance will it cover in 7(1/2) hours ?