A compact car, mass 700 kg, is moving at 1.00 ✕ 102 km/h toward the east. The driver of the compact car suddenly applies the brakes hard for 1.6 s. As a result, an average force of 4.8 ✕103 N is exerted on the car to slow it down.
A compact car, mass 700 kg, is moving at 1.00 ✕ 102 km/h toward the east....
A compact car, mass 650 kg, is moving at 1.00 ✕ 102 km/h toward the east. A second car, mass 2040 kg, has the same momentum. What is its velocity?
A car of mass 2.0 x 103 kg is initially moving at 75 km/h when the brakes are applied and the car is brought to a stop in 25 m. Assuming the force that stops the car is constant, find the magnitude of that force that stop the car. A. - 15.73x103 N B. -17.3x103 N C. 16.73x103 N D. 12.73x103 N
The driver of a car is initially moving at a constant speed of 66.2 km/h when a traffic light turns red. If a 0.510 s reaction time is required before the brakes can be applied, what is the distance in meters traveled by the car before it begins to slow down?
The driver of a car is initially moving at a constant speed of 73.9 km/h when a traffic light turns red. If a 0.535 s reaction time is required before the brakes can be applied, what is the distance in meters traveled by the car before it begins to slow down?
The driver of a car is initially moving at a constant speed of 73.9 km/h when a traffic light turns red. If a 0.535 s reaction time is required before the brakes can be applied, what is the distance in meters traveled by the car before it begins to slow down?
he driver of a car is initially moving at a constant speed of 72.0 km/h when a traffic light turns red. If 0.500 s reaction time is required before the brakes can be applied, what is the distance in meters traveled by the car before it begins to slow down? Average speed 8 Com pute the average speed in m/s of a runner who completes a mile in 4.00 min.
Date: 10/30/2019 An SUV with mass 1.80x10 kg is traveling, while a compact car with mass 9.00 x 10 kg is traveling behind. If two vehicles are both traveling eastward, the compact car leading the SUV. The driver of the compact car slams on the brakes suddenly, slowing the vehicle to 6.00 m/s. If the SUV traveling at 18.0 m/s crashes into the compact car, find (a) the speed of the system right after the collision, assuming the two vehicles...
A car has a mass of 1500 kg. If the driver applies the brakes while on a gravel road, the maximum friction force that the tires can provide without skidding is about 7000 N. If the car is moving at 22 m/s, what is the shortest distance in which the car can stop safely?
A train has a mass of 5.0E+6 kg and is moving at 60 km/hr. The engineer applies the brakes, which results in a net backward force of 1.5E+6 N on the train. The brakes are held on for 25 s. What is the new speed of the train? How far does it travel during this period?
A 2200-kg car is moving with an initial velocity of 72 km/h. After 12 seconds the car has slowed down to 27 km/h. What is the net force that produces the deceleration?