A car starting at 590rpm reaches 4500rpm then back to 590rpm over 3.9seconds. What is the...

Starting from rest, a car first accelerates at a rate of (2.00 + A/10) m/s2 for...

Starting from rest, a car first accelerates at a rate of (2.00 + A/10) m/s2 for (1.20 + B) seconds and then continues at the resulting speed for (24.0 + C) seconds. Determine the total displacement in meters of the car during this time. Round your answer to three significant figures. A = 8 B = 1 C = 12

    starting from rest, a car acceleration at a rate of 4 m/s2for 3 seconds. The car...

    starting from rest, a car acceleration at a rate of 4 m/s2for 3 seconds. The car then travels at a constant speed for 5 seconds. What is the total distance moved by the car?    what is the angle between the two vectors from the line 1 column 49 to line 1 column 73. Unexpected ‘<mstyle and from line 1 column 56 to line 1 column 95. Unexpected ‘<mi; ? The velocity of a particle as a function time along the...

A car is driving over the top of a circularly shaped hill. What is the fastest...

A car is driving over the top of a circularly shaped hill. What is the fastest speed that the car can go without losing contact with the hill? Assume that the hill's radius is 23 m.

Starting from rest, a car speeds up uniformly to (4.80 + A) m/s in a time...

Starting from rest, a car speeds up uniformly to (4.80 + A) m/s in a time of 12.0 s. The car then travels with this speed for (15.0 + B) seconds before slowing down at a constant rate to a stop in 24.0 seconds. Determine the total distance in meters traveled from start to end. Round your final answer to three significant figures. (Hint: Sketch a velocity – time graph for the motion and use the graph to determine the...

Tarzan is swinging back and forth on his grapevine. As he swings, he goes back and...

Tarzan is swinging back and forth on his grapevine. As he swings, he goes back and forth across the riverbank, going alternately over land and water. Jane decides to model his motion mathematically and starts her stopwatch. Let t be the number of seconds the stopwatch reads and let y be the number of meters Tarzan is from the riverbank. Assume that y varies sinusoidally with t, and that y is positive when Tarzan is over water and negative when...

A car stating from rest accelerates at 2 m/s2 for 5 seconds. The driver then maintians...

A car stating from rest accelerates at 2 m/s2 for 5 seconds. The driver then maintians a steady speed for 12 seoncds. The car the undergoes an accelration of -2.5m/s2 until it reaches a speed of 4 m/s. A. what was the speed of the car after 2 seconds? B. how far did the car travel during the interval of constant speed? C. how much time did the car spend slowing down? d. what was the total distane the car...

a) A car accelerates uniformly from rest and reaches a speed of 13.7 m/s in 10.9...

a) A car accelerates uniformly from rest and reaches a speed of 13.7 m/s in 10.9 s. The diameter of a tire is 71.8 cm. Find the number of revolutions the tire makes during this motion, assuming no slipping. Answer in units of rev. b) What is final rotational speed of a tire? Answer in units of rev/s.

A car accelerates uniformly from rest and reaches a speed of 21.0 m/s in 9.05 s....

A car accelerates uniformly from rest and reaches a speed of 21.0 m/s in 9.05 s. Assume the diameter of a tire is 59.0 cm. (a) Find the number of revolutions the tire makes during this motion, assuming that no slipping occurs. rev (b) What is the final angular speed of a tire in revolutions per second? rev/s

If a car accelerates from a stationary starting position, what difference would it make to the...

If a car accelerates from a stationary starting position, what difference would it make to the velocity of the car to gradually increase the amount of acceleration to some maximum value, rather than maintain the acceleration at this maximum value from the beginning?

A construction worker assisting in the paving of a street drives a heavy roller back and...

A construction worker assisting in the paving of a street drives a heavy roller back and forth over the newly paved area to smooth the asphalt. The section of street being paved is 100 m long and the roller operator drives from the east end to the west end of the street and back again 20 times during paving operation. A one-way trip (100 m) takes driver 60 seconds, and reversing direction at each end takes 5 seconds. Assuming that...