(I) A particle at is at and at t1=-2.0 s is at x1=4.8cm and at t2=4.5 s is at x2 = 8.5 cm. What is its average velocity over this time interval? Can you calculate its average speed from these data?Why or why not?

(II) A baseball pitcher throws a baseball with a speed of 43 m/s. Estimate the average acceleration of the ball during the throwing motion. In throwing the baseball, the pitcher accelerates it through a displacement of about 3.5 m, from behind 3.5 m the body to the point where it is released (Fig. 2–37). FIGURE 2-37 Problem 25.

If a boat achieves a speed of 6.0 m/s in 12s, what is the boats average acceleration? (b) then, in 4.0 more seconds the boats speed is 10 m/s. What's is the boats average acceleration for the total time?

(II) Roger sees water balloons fall past his window. He notices that each balloon strikes the sidewalk 0.83 s after passing his window. Roger’s room is on the third floor, 15 m above the sidewalk. (a) How fast are the balloons traveling when they pass Roger’s window? (b) Assuming the  balloons are being released from rest, from what floor are they being released? Each floor of the dorm is 5.0 m high.

9. A student took 15 minutes to cycle from his house to school. He starts from rest and reaches a maximum speed of 4.0 m s¹ in 5.0 minutes at constant acceleration. After reaching the maximum speed, he decelerates uniformly to 2.0 m s¹ in 3.0 minutes and continues cycling with this speed for 5.0 minutes. He then took 2.0 minutes to decelerate uniformly to stop. (i) (ii) Sketch a labelled graph of speed versus time for the whole journey. Calculate the acceleration of the bicycle for the time segments of 0-5 minutes and 13-15 minutes. [ 0.013 m s -²,-0.017 ms -²] (iii) Determine the total distance from his house to school. [ 1860 m ]

(III) An unmarked police car traveling a constant 95km/h is passed by a speeder traveling 135km/h Precisely 1.00 s after the speeder passes, the police officer steps on the accelerator; if the police car’s acceleration is 2.60m/s2 how much time passes before the police car overtakes thespeeder (assumed moving at constant speed)?

(b) The speed of a train is reduced uniformly from 20 km/h to 10 km/h while travelling a distance of 80 m. (1) (ii) E (iv) Calculate the deceleration of the train. Assuming that the deceleration is constant, how much further will the train travel before coming to rest? Determine the total time taken for the train to come to rest from a speed of 20 km/h. Sketch the velocity versus time graph for the motion of the train.

(II) A stone is thrown vertically upward with a speed of 24.0 m/s(a) How fast is it moving when it is at a height of 13.0 m? (b) How much time is required to reach this height? (c) Why are there two answers to (b)?

36 km/h to Braking uniformly reduces the speed of a train from vị 3. V2 = 7.2 km/h during 100 seconds. Find: (1) the negative acceleration of the train; (2) the distance traveled by the train during the time the brakes are applied. B) – 0.06 m/s² ; 800 m. D) – 0.08 m/s?; 600 m. A) – 0.055 m/s? ; 900 m. C) – 0.07 m/s?; 700 m.