The same car accelerates out of the stoplight at 1.5 m/s 2 . Draw a free-body diagram of the car and find the force of friction (magnitude and direction) that the road puts on the wheels. 3) The same car reaches a top speed of 15 m/s, then begins braking. It comes to a halt in 20 seconds. Draw a free body diagram of the car and find the force of friction (magnitude and direction) that the road makes on the wheels now.
*PLEASE ANSWER Questions #2 and #3*
1) A car is waiting at a stoplight. The car has a mass of 1200 kg. What is the force (magnitude and direction) that the road puts on the wheels?
*Note that problems 2, 3 and 4 ask for the
2) The same car accelerates out of the stoplight at 1.5 m/s 2 . Draw a free-body diagram of the car and find the force of friction (magnitude and direction) that the road puts on the wheels.
3) The same car reaches a top speed of 15 m/s, then begins braking. It comes to a halt in 20 seconds. Draw a free body diagram of the car and find the force of friction (magnitude and direction) that the road makes on the wheels now.
4) The same car is now towing a 200kg trailer. It accelerates out of the stoplight a little slower, at 0.8 m/s 2 . Draw free-body diagrams of the car and the trailer as it accelerates. What is the force of friction that the road makes on the car wheels now?
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