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Chapter 2: Q7Q (page 82)

Question:A ball moves in the direction of the arrow labelled in Figure. The ball is struck by a stick that briefly exerts a force on the ball in the direction of the arrow labelled. Which arrow best describes the direction of, the change in the ball's momentum?

Short Answer

Expert verified

Answer

The correct direction of the ball's momentum change ise.

Step by step solution

01

Understanding the action of force applied perpendicularly on a moving object

When a body moves in a specific direction at a specific velocity and an external force acts on it in a perpendicular direction to its motion, the body's speed remains constant but its direction of motion changes.

02

Representation of the situation diagrammatically

  • The body's motion is circular in this case, and the velocity vector is always tangential to the circular path on which it moves.
  • In this example, a force acted on the body in an inward direction, which is responsible for the body's circular trajectory.
  • The direction of velocity change is the same as the direction of momentum change.
  • The force applied by the stick and the ball's initial velocity is depicted in the diagram below as,

03

Representation of an arrow describing the change in ball’s momentum

  • The ball moves in the direction of, whereas the force moves in the direction of.
  • As a result, the direction of acceleration is along, and the change in velocity direction is also along.
  • The direction of change in velocity is the same as the direction of change in momentum, as it is well known. As a result, momentum will flow in the direction of.
  • As a result, the right direction of the ball's momentum change ise.

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Most popular questions from this chapter

Question: (1) Two external forces,and, act on a system. What is the net force acting on the system? (2) A hockey puck initially has momentum. It slides along the ice, gradually slowing down, until it comes to a stop. (a) What was the impulse applied by the ice and the air to the hockey puck? (b) It took 3 seconds for the puck to come to a stop. During this time interval, what was the net force on the puck by the ice and the air (assuming that this force was constant)?

The position of a golf ball relative to the tee changes from<50,20,30>m to<53,18,31>m in0.1second. As a vector, write the velocity of the golf ball during this short time interval.

A tennis ball has a mass of 0.057kg.A professional tennis player hits the ball hard enough to give it a speed of 50 m/s (about 120 mi/h). The ball hits a wall and bounces back with almost the same speed (50m/s). As indicated in Figure 2.55 , high-speed photography shows that the ball is crushed 2 cm (0.02 m) at the instant when its speed is moment0arily zero, before rebounding.

Making the very rough approximation that the large force that the wall exerts on the ball is approximately constant during contact, determine the approximate magnitude of this force. Hint: Think about the approximate amount of time it takes for the ball to come momentarily to rest. (For comparison note that the gravitational force on the ball is quite small, only about (0.057 kg) (9.8 N/kg) 0.6 N. A force of5N is approximately the same as a force of one pound.)

A carbon resistor is 5 mm long and has a constant cross section of0.2mm2The conductivity of carbon at room temperature is σ=3×104perohm-m.In a circuit its potential at one end of the resistor is 12 V relative to ground, and at the other end the potential is 15 V. Calculate the resistance Rand the current I (b) A thin copper wire in this circuit is 5 mm long and has a constant cross section of 0.2mm2.The conductivity of copper at room temperature is σ=6×107ohm-1m-1.The copper wire is in series with the carbon resistor, with one end connected to the 15 V end of the carbon resistor, and the current you calculated in part (a) runs through the carbon resistor wire. Calculate the resistance Rof the copper wire and the potential Vatendat the other end of the wire.

You can see that for most purposes a thick copper wire in a circuit would have practically a uniform potential. This is because the small drift speed in a thick, high-conductivity copper wire requires only a very small electric field, and the integral of this very small field creates a very small potential difference along the wire.

Question: A solid plastic sphere of radius R has charge -Q distributed uniformly over its surface. It is far from all other objects.

(a). Sketch the molecular polarization in the interior of the sphere and explain briefly.

(b). Calculate the potential relative to infinity at the center of the sphere.
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