On turning a corner, a motorist rushing at `44ms^(-1)` finds a child on the road `100 m` away. He applies the brakes so as to stop the motorcar within `1 m` of the child. Calculate the time required to stop.

on turning a corner a car driving at 36kmh^(-1) finds a child on the road 55 m abead. He immediately applies brakes,so as to stop within 5 m of the child . Calculate the retardation produced and the time taken by the car to stop .

A sooterist moving with a speed of 36kmh^(-1) sees a child standing in the middle of the road. He applies the brakes and brings the scooter to rest in 5 s just in time to save child. Calculate the average retarding force on the vehicle, if mass of the vehicle and driver is 300 kg.

A car is travelling at 20 m/s along a road. A child runs out into the road 50 m ahead and the car driver steps on the brake pedal. What must the car's deceleration be if the car is to stop just before it reaches the child ?

A car is moving with a speed of 4-0km//h^(-1) . As the car reaches a circular turn on the road of radius 100m , the driver applies brakes and reduces his speed at the rate of 1ms^(2) . Calculate the magnitude of net acceleration of the car.

The brakes applied to a car produce an acceleration of 6 m//s^(2) in the opposite direction to the motion . If the car takes 2 s to stop after the application of brakes , calculate the distance it travels during this time.

A car was movig at a rate of 18 kmh^(-1) . When the brakes were applied, it comes to rest in a distance of 100 m. Calculate the retardation produced by the brakes.

A car moving along a straight highway with a speed of 72 km h^(-1) is brought to a stop within the distance of 100 m . What is the retardation of the car and how long does it take for the car to stop ?

A cyclist is travelling at 15 m s^(-1) . She applies brakes so that she does not collide with a wall 18 m away. What deceleration must she have ?

A scooter or a motor-cycle is a compound machine made up of several simple machines. Study the following parts of a scooter/motor cycle and identify the simple machines involved in them. (i) Clutch levers (ii) Throttle (iii) Front brake lever (iv) Rear brake pedal (v) Stand (vi) Rear view mirror (vii) Wheels (viii) Chain drive A person weighing 50 kg, moves on a scooter of 100 kg at a speed of 36 km h^(-1) and applies brakes to stop within a distance of 10m. If the mechanical advantage of the brake system (comprising brake drum, lever, etc.) is 10^(3) , find the force with which the person should press the foot pedal to stop the vehicle.

Two car travelling towards each other on a straith road at velocity 10 ms^(-1) and 12 ms^(-1) respectively. When they are 150 m apart, both the drivers apply their brakes and each car decelerates at 2 ms^(-2) until it stops. How far apart will they be when both of them come to a halt ?