Two students stand at rest, facing each other on frictionless skates. They then start tossing a heavy ball back and forth betwee
n them. Describe their subsequent motion?
2 answers:
<em>1) Each time the student throws the ball to this friend, he gains the momentum in the</em><u><em> opposite/backward</em></u><em> direction. </em>
<em>2) Each time the student catches the ball, he gains momentum in the </em><u><em>same direction as of ball </em></u><em>and away from his friend. </em>
<em>3) Students will throw the ball towards each other until they </em><u><em>are too much far away from one another. </em></u>
<em></em>
Further Explanation:
<u>Part (1): </u>
According to the Newton’s third law of motion, every action has equal and opposite reaction. When the student standing on a frictionless skate, throws a ball towards his friend, he does an action in the forward direction.
<u>Due to the action of the student on the ball in the forward direction, the reaction will be experienced by the student in the direction opposite to the motion of the ball. Thus, the student gains some momentum in the backward direction. </u>
<u>Part (2): </u>
Now as the ball reaches the student on the other side, the ball is caught by the student by doing some action in the opposite direction of the ball to stop it. Then he will experience a reaction from the ball and this reaction will be directed in the same direction as of the motion of the ball.
<u>Due to this reaction, the student will move further away from his friend. </u>Thus, each time the student catches the ball, he gains momentum in the direction same as the motion of the ball and moves away from his friend.
<u>Part (3): </u>
Since the skates are frictionless and each time the students throw the ball and catch it, they gain a momentum in the direction away from one another and due to this reaction, they will continue to move away from each other. Once they are too far from one another, they will not be able to throw the ball towards one another.
Learn More:
1. You are riding on a roller coaster that starts from rest at a height of 25.0 m brainly.com/question/10177389
2. Max and Maya are riding on a merry-go-round that rotates at a constant speed brainly.com/question/8444623
3. A 700-kg car, driving at 29 m/s, hits a brick wall and rebounds with a speed of 4.5 m/s brainly.com/question/9484203
Answer Details:
Grade: High School
Subject: Physics
Chapter: Force and Momentum
Keywords: Two students, frictionless skates, start tossing, heavy ball, back and forth, subsequent motion, catches the ball, opposite direction, momentum, action, reaction.
You might be interested in
Answer:
1) The amplitude of the motion is approximately 0.274 meters.
2) The total energy of the object at any point of its motion is 16.892 joules.
Explanation:
1) An object under simple harmonic motion is conservative, since there is no dissipative forces acting during motion (i.e. friction, air viscosity). The amplitude of the motion can be found easily by Principle of Energy Conservation by the fact that maximum elastic potential energy (), in joules, is equal to maximum translational kinetic energy (
), in joules:
(1)
Where:
- Spring constant, in newtons per meter.
- Amplitude, in meters.
- Object mass, in kilograms.
- Speed of the object at equilibrium, in meters per second.
If we know that ,
and
, then the amplitude of the motion is:
The amplitude of the motion is approximately 0.274 meters.
2) The total energy of the object (), in joules, is found either by maximum elastic potential energy or by maximum translational kinetic energy, that is: (
,
)
The total energy of the object at any point of its motion is 16.892 joules.
Answer:
Explanation:
The power dissipated in a resistor is given by the equation:
where
P is the power
I is the current
R is the resistance
We can also rewrite the equation by using Ohm's law:
where V is the potential difference across the resistor. Rewriting R as
The equation for the power becomes