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Chapter 2: Q4Q (page 31)

Figure 2-19 is a graph of a particle鈥檚 position along an x axis versus time. (a) At timet=0, what is the sign of the particle鈥檚 position? Is the particle鈥檚 velocity positive, negative, or 0 at (b)t=1s, (c)t=2s, and (d)t=3s? (e) How many times does the particle go through the pointx=0?

Short Answer

Expert verified

(a) Position is negative

(b) Velocity is positive at t=1 s

(c) Velocity is zero at t =2 s

(d) Velocity is negative at t =3 s

(e) Particle goes through the point x=0 twice at t =1 s and t =3 s

Step by step solution

01

Given information

The graph in figure 2.19

02

To understand the concept

The velocity is the rate of change of displacement. If the displacement for the given time interval is positive, the velocity is also positive, if the displacement is negative the velocity is negative. The velocity is also equal to the slope of displacement vs the time graph.

03

(a) To find the particle’s sign of position

From the given graph it is seen that when t =0, the position of the particle is below the time axis. It means the position is on the negative axis of the position. Thus, the position of the particle at t =0 is negative

04

(b) To find the particle’s velocity at t=1 s

The velocity of the particle is given by,

v=dxdt

The expression also represents the slope of the graph. Now, if the slope is positive, it can be concluded that the velocity is positive. If the slope is negative, it can be concluded that the velocity is negative. And, if the slope is zero, it can be concluded that the velocity is zero.

From the graph, it can be seen that the slope is positive. Thus, the velocity of the particle at t =1 is positive.

05

(c) To find the particle’s velocity at t =2 s

The slope of x versus t is zero.

Thus, the velocity of the particle att=2 s is zero

06

(d) To find the particle’s velocity at t=3 s

From the graph, it can be seen that the slope of x versus t is negative.

Thus, the velocity of the particle at t =3 s is negative.

07

(e) How many times do particles go through the point x =0

From the graph, it can be seen that the particle goes through the pointx=0 twice at t =1 s and t =3 s

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Most popular questions from this chapter

To stop a car, first you require a certain reaction time to begin braking; then the car slows at a constant rate. Suppose that the total distance moved by your car during these two phases is 56.7mwhen its initial speed is80.5km/h, and24.4mwhen its initial speed is48.3km/h. What are (a) your reaction time and (b) the magnitude of the acceleration?

Figure 2-45 shows a simple device for measuring your reaction time. It consists of a cardboard strip marked with a scale and two large dots. A friend holds the strip vertically, with thumb and forefinger at the dot on the right in Fig. 2-45. You then position your thumb and forefinger at the other dot (on the left in Fig. 2-45), being careful not to touch the strip. Your friend releases the strip, and you try to pinch it as soon as possible after you see it begin to fall. The mark at the place where you pinch the strip gives your reaction time. (a) How far from the lower dot should you place the 50.0 m smark? How much higher should you place the marks for (b) 100, (c) 150, (d) 200, and (e) 250 ms? (For example, should the 100 msmarker be 2 times as far from the dot as the 50msmarker? If so, give an answer of 2 times. Can you find any pattern in the answers?

The position of a particle moving alongxaxis depends on the time according to the equation x=ct2bt3, wherexis in meters and tin seconds. What are the units of 鈥(a)Constant c and (b)Constant b? Let their numerical values be 2.0and 3.0respectively. (c) At what time does the particle reach its maximum positive x position? Fromt=0.0sto t=4.0s. (d) what distance does the particle move? (e) what is its displacement? Find its velocity at times- (f) 1.0s(g) t=2.0s(h)t=3.0s(i)t=4.0sFind its acceleration at times- (j)1.0s(k)t=2.0s(l)t=3.0s(m)t=4.0s.

A ball is shot vertically upward from the surface of another planet. A plot of y vs t for the ball is shown in Fig 2-36, where y is the height of the ball above its starting point and t=0 at the instant the ball is shot. The figure鈥檚 vertical scaling is set by ys=30.0m.. What are the magnitudes of (a) the free fall acceleration on the planet and (b) the initial velocity of the ball?

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