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Chapter 11: Q. 13 (page 286)

Two balls of clay of known masses hang from the ceiling on massless strings of equal length. They barely touch when both hang at rest. One ball is pulled back until its string is at $45 °$ , then released. It swings down, collides with the second ball, and they stick together. To determine the angle to which the balls swing on the opposite side, would you invoke
(a) conservation of momentum, (b) conservation of mechanical energy, (c) both, (d) either but not both, or (e) these laws alone are not sufficient to find the angle? Explain.

Short Answer

Expert verified

$(c)$ Both

Step by step solution

01

Given information

We need to find the angle to which the balls swing on the opposite side, after invoke

02

Explanation

The two balls of clay are hung from the ceiling and initially do not touch each other.

One of the balls is pulled till and then it was left to swing. It collides with another ball and they stick together.

After determining the angle they will make on the opposite sides and get stuck together. For that, we will need the following principle.

(i)Conservation of momentum: In direction of swinging there is no external force hence their net momentum should be conserved. Using this we can find their common velocity.

(ii) Conservation of energy: By applying this we can determine the angle they make. We can break the gravity force in the required directions and use that to find the angle.

Hence the correct option is (c).

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Most popular questions from this chapter

A tennis player swings her 1000 g racket with a speed of 10 m/s. She hits a 60 g tennis ball that was approaching her at a speed of 20 m/s. The ball rebounds at 40 m/s.

a. How fast is her racket moving immediately after the impact? You can ignore the interaction of the racket with her hand for the brief duration of the collision.

b. If the tennis ball and racket are in contact for 10 ms, what is the average force that the racket exerts on the ball? How does this compare to the gravitational force on the ball?

A proton (mass 1 u) is shot toward an unknown target nucleus at a speed of $2.50 \times 10^{6}$ m/s. The proton rebounds with its speed reduced by 25% while the target nucleus acquires a speed of $3.12 \times 10^{5}$ m/s. What is the mass, in atomic mass units, of the target nucleus?

You are part of a search-and-rescue mission that has been called out to look for a lost explorer. You’ve found the missing explorer, but, as FIGURE P11.50 shows, you’re separated from him by a $200 - m$ -high cliff and a $30 - m$ -wide-raging river. To save his life, you need to get a 5.0 kg package of emergency supplies across the river. Unfortunately, you can’t throw the package hard enough to make it across. Fortunately, you happen to have a 1.0 kg rocket intended for launching flares. Improvising quickly, you attach a sharpened stick to the front of the rocket so that it will impale itself into the package of supplies, then fire the rocket at ground level toward the supplies. What minimum speed must the rocket have just before impact in order to save the explorer’s life?

Rank in order, from largest to smallest, the momenta ${(p_{x})}_{a}$ to ${(p_{x})}_{e}$ of the objects in FIGURE $Q 11.1$ .

Two ice skaters, Paula and Ricardo, push off from each other. Ricardo weighs more than Paula.

a. Which skater, if either, has the greater momentum after the push-off? Explain.

b. Which skater, if either, has the greater speed after the pushoff? Explain

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