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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

In the circuit shown in Figure 19.75, the emf of the battery is 7.9V. Resistor R1 has a resistance of 23Ω, and resistor R2has a resistance of44Ω. A steady current flows through the circuit. (a) What is the absolute value of the potential difference across R1? (b) What is the conventional current through R2?

Figure 16.60 shows a portion of a long, negatively charged rod. You need to calculate the potential difference VD-Vc.

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