How high a hill can a car coast up (engine disengaged) if work that is done...

a. How high a hill can a car coast up (engine disengaged) if friction is negligible...

a. How high a hill can a car coast up (engine disengaged) if friction is negligible and it’s initial speed is 92.0km/hr? In m b. If, in actuality , a 750 kg car with an initial speed of 92.0 km/hr is observed to coast up a hill to a height of 17.0 m above it’s starting point, how much thermal energy was generated by friction? In Joules C. What is the average force of friction if the hill has a...

(a) How high a hill can a car coast up (engine disengaged) if friction is negligible...

(a) How high a hill can a car coast up (engine disengaged) if friction is negligible and its initial speed is 106 km/h? 44.18 Correct: Your answer is correct. m (b) If, in actuality, a 750 kg car with an initial speed of 106 km/h is observed to coast up a hill to a height 20.0 m above its starting point, how much thermal energy was generated by friction? 177.87 Incorrect: Your answer is incorrect. J (c) What is the...

A 1250 kg car drives up a hill that is 15.2 m high. During the drive,...

A 1250 kg car drives up a hill that is 15.2 m high. During the drive, two nonconservative forces do work on the car: (i) the force of friction, and (ii) the force generated by the car's engine. The work done by friction is −2.91×105 J ; the work done by the engine is 6.44×105 J . Part A Find the change in the car's kinetic energy from the bottom of the hill to the top of the hill.

A car is driving along at 65 mph up a hill inclined at a 10◦ angle...

A car is driving along at 65 mph up a hill inclined at a 10◦ angle above horizontal when suddenly the engine dies. How high up the hill does it continue to coast? No friction or drag. same problem as the previous, but the drag force acts like a frictional force with a coefficient of µ = 0.2. How high does the car go this time?

A bicyclist of mass 75 kg (including the bicycle) can coast down a 4.0degrees hill at...

A bicyclist of mass 75 kg (including the bicycle) can coast down a 4.0degrees hill at a steady speed of 12 km/h. Pumping hard, the cyclist can descend the hill at a speed of 32 km/h. Using the same power, at what speed can the cyclist climb the same hill? Assume the force of friction is proportional to the square of the speed v; that is, Ffr=bv2, where b is a constant.

The 2040 kg cable car shown in the figure descends a 200-m-high hill. In addition to...

The 2040 kg cable car shown in the figure descends a 200-m-high hill. In addition to its brakes, the cable car controls its speed by pulling an 1860 kg counterweight up the other side of the hill. The rolling friction of both the cable car and the counterweight are negligible. Part A: How much braking force does the cable car need to descend at constant speed? Part B: One day the brakes fail just as the cable car leaves the...

A car travels up a hill at a constant speed of 41 km/h and returns down...

A car travels up a hill at a constant speed of 41 km/h and returns down the hill at a constant speed of 66 km/h. Calculate the average speed for the round trip.

A car travels up a hill at a constant speed of 43 km/h and returns down...

A car travels up a hill at a constant speed of 43 km/h and returns down the hill at a constant speed of 62 km/h. Calculate the average speed for the round trip.

A car travels up a hill at a constant speed of 34 km/h and returns down...

A car travels up a hill at a constant speed of 34 km/h and returns down the hill at a constant speed of 66 km/h. Calculate the average speed for the round trip.

A 2,000 kg car reaches the top of a 100 meter hill at A with a...

A 2,000 kg car reaches the top of a 100 meter hill at A with a speed vA = 40 m/s as shown in the figure below. A hill B is shown in the figure to the right of hill A. (a) Assume there is no frictional loss of energy between the car and the hills. What is the speed of the car (vB) when it gets to the top of the 150 meter hill at B? PHYS 201-001 Summer...