NEET Exam > NEET Questions > A ball P is moving with a certain velocity co...
Start Learning for Free
A ball P is moving with a certain velocity collides head on with another ball Q of same mass at rest. Coefficient of restitution is 1/4 then ratio of velocity of P and Q just after collision?
Most Upvoted Answer
A ball P is moving with a certain velocity collides head on with anoth...
Community Answer
A ball P is moving with a certain velocity collides head on with anoth...
Explanation:
When ball P collides head-on with ball Q, the momentum and kinetic energy of the system are conserved.
Momentum Conservation:
The momentum of an object is defined as the product of its mass and velocity. According to the law of conservation of momentum, the total momentum before the collision is equal to the total momentum after the collision.
Before the collision:
Momentum of ball P = mass of P * velocity of P
Momentum of ball Q = mass of Q * velocity of Q (since ball Q is at rest)
After the collision:
Momentum of ball P = mass of P * velocity of P' (velocity of P after collision)
Momentum of ball Q = mass of Q * velocity of Q' (velocity of Q after collision)
Since the mass of both balls is the same, we can equate the initial and final momentum equations:
mass of P * velocity of P = mass of P * velocity of P' + mass of Q * velocity of Q'
Kinetic Energy Conservation:
The kinetic energy of an object is defined as half the product of its mass and the square of its velocity. According to the law of conservation of kinetic energy, the total kinetic energy before the collision is equal to the total kinetic energy after the collision.
Before the collision:
Kinetic energy of ball P = 0.5 * mass of P * (velocity of P)^2
Kinetic energy of ball Q = 0.5 * mass of Q * (velocity of Q)^2 (since ball Q is at rest)
After the collision:
Kinetic energy of ball P = 0.5 * mass of P * (velocity of P')^2
Kinetic energy of ball Q = 0.5 * mass of Q * (velocity of Q')^2
Since the masses of both balls are the same, we can equate the initial and final kinetic energy equations:
0.5 * mass of P * (velocity of P)^2 = 0.5 * mass of P * (velocity of P')^2 + 0.5 * mass of Q * (velocity of Q')^2
Coefficient of Restitution:
The coefficient of restitution (e) is a measure of how elastic a collision is. It is defined as the ratio of the relative velocity of separation to the relative velocity of approach.
e = (velocity of separation) / (velocity of approach)
In this case, the coefficient of restitution is given as 1/4, which means:
e = 1/4
Since the collision is head-on, the relative velocity of approach is the sum of the velocities of the two balls before the collision, and the relative velocity of separation is the difference in their velocities after the collision.
velocity of approach = velocity of P - velocity of Q (since Q is at rest)
velocity of separation = velocity of P' - velocity of Q'
Therefore, we can write:
e = (velocity of P' - velocity of Q') / (velocity of P - velocity of Q)
Simplifying the equation:
1/4 = (velocity of P' - velocity of Q') / (velocity of P - velocity of Q)
Ratio of Velocities:
To find the ratio of the velocities of P and Q just after the collision, we can solve the above equation:
1/4 = (
When ball P collides head-on with ball Q, the momentum and kinetic energy of the system are conserved.
Momentum Conservation:
The momentum of an object is defined as the product of its mass and velocity. According to the law of conservation of momentum, the total momentum before the collision is equal to the total momentum after the collision.
Before the collision:
Momentum of ball P = mass of P * velocity of P
Momentum of ball Q = mass of Q * velocity of Q (since ball Q is at rest)
After the collision:
Momentum of ball P = mass of P * velocity of P' (velocity of P after collision)
Momentum of ball Q = mass of Q * velocity of Q' (velocity of Q after collision)
Since the mass of both balls is the same, we can equate the initial and final momentum equations:
mass of P * velocity of P = mass of P * velocity of P' + mass of Q * velocity of Q'
Kinetic Energy Conservation:
The kinetic energy of an object is defined as half the product of its mass and the square of its velocity. According to the law of conservation of kinetic energy, the total kinetic energy before the collision is equal to the total kinetic energy after the collision.
Before the collision:
Kinetic energy of ball P = 0.5 * mass of P * (velocity of P)^2
Kinetic energy of ball Q = 0.5 * mass of Q * (velocity of Q)^2 (since ball Q is at rest)
After the collision:
Kinetic energy of ball P = 0.5 * mass of P * (velocity of P')^2
Kinetic energy of ball Q = 0.5 * mass of Q * (velocity of Q')^2
Since the masses of both balls are the same, we can equate the initial and final kinetic energy equations:
0.5 * mass of P * (velocity of P)^2 = 0.5 * mass of P * (velocity of P')^2 + 0.5 * mass of Q * (velocity of Q')^2
Coefficient of Restitution:
The coefficient of restitution (e) is a measure of how elastic a collision is. It is defined as the ratio of the relative velocity of separation to the relative velocity of approach.
e = (velocity of separation) / (velocity of approach)
In this case, the coefficient of restitution is given as 1/4, which means:
e = 1/4
Since the collision is head-on, the relative velocity of approach is the sum of the velocities of the two balls before the collision, and the relative velocity of separation is the difference in their velocities after the collision.
velocity of approach = velocity of P - velocity of Q (since Q is at rest)
velocity of separation = velocity of P' - velocity of Q'
Therefore, we can write:
e = (velocity of P' - velocity of Q') / (velocity of P - velocity of Q)
Simplifying the equation:
1/4 = (velocity of P' - velocity of Q') / (velocity of P - velocity of Q)
Ratio of Velocities:
To find the ratio of the velocities of P and Q just after the collision, we can solve the above equation:
1/4 = (
Attention NEET Students!
To make sure you are not studying endlessly, EduRev has designed NEET study material, with Structured Courses, Videos, & Test Series. Plus get personalized analysis, doubt solving and improvement plans to achieve a great score in NEET.
|
Explore Courses for NEET exam
|
|
Similar NEET Doubts
Top Courses for NEETView all
A ball P is moving with a certain velocity collides head on with another ball Q of same mass at rest. Coefficient of restitution is 1/4 then ratio of velocity of P and Q just after collision?
Question Description
A ball P is moving with a certain velocity collides head on with another ball Q of same mass at rest. Coefficient of restitution is 1/4 then ratio of velocity of P and Q just after collision? for NEET 2024 is part of NEET preparation. The Question and answers have been prepared according to the NEET exam syllabus. Information about A ball P is moving with a certain velocity collides head on with another ball Q of same mass at rest. Coefficient of restitution is 1/4 then ratio of velocity of P and Q just after collision? covers all topics & solutions for NEET 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for A ball P is moving with a certain velocity collides head on with another ball Q of same mass at rest. Coefficient of restitution is 1/4 then ratio of velocity of P and Q just after collision?.
A ball P is moving with a certain velocity collides head on with another ball Q of same mass at rest. Coefficient of restitution is 1/4 then ratio of velocity of P and Q just after collision? for NEET 2024 is part of NEET preparation. The Question and answers have been prepared according to the NEET exam syllabus. Information about A ball P is moving with a certain velocity collides head on with another ball Q of same mass at rest. Coefficient of restitution is 1/4 then ratio of velocity of P and Q just after collision? covers all topics & solutions for NEET 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for A ball P is moving with a certain velocity collides head on with another ball Q of same mass at rest. Coefficient of restitution is 1/4 then ratio of velocity of P and Q just after collision?.
Solutions for A ball P is moving with a certain velocity collides head on with another ball Q of same mass at rest. Coefficient of restitution is 1/4 then ratio of velocity of P and Q just after collision? in English & in Hindi are available as part of our courses for NEET.
Download more important topics, notes, lectures and mock test series for NEET Exam by signing up for free.
Here you can find the meaning of A ball P is moving with a certain velocity collides head on with another ball Q of same mass at rest. Coefficient of restitution is 1/4 then ratio of velocity of P and Q just after collision? defined & explained in the simplest way possible. Besides giving the explanation of
A ball P is moving with a certain velocity collides head on with another ball Q of same mass at rest. Coefficient of restitution is 1/4 then ratio of velocity of P and Q just after collision?, a detailed solution for A ball P is moving with a certain velocity collides head on with another ball Q of same mass at rest. Coefficient of restitution is 1/4 then ratio of velocity of P and Q just after collision? has been provided alongside types of A ball P is moving with a certain velocity collides head on with another ball Q of same mass at rest. Coefficient of restitution is 1/4 then ratio of velocity of P and Q just after collision? theory, EduRev gives you an
ample number of questions to practice A ball P is moving with a certain velocity collides head on with another ball Q of same mass at rest. Coefficient of restitution is 1/4 then ratio of velocity of P and Q just after collision? tests, examples and also practice NEET tests.
|
|
Explore Courses for NEET exam
|
|
Suggested Free Tests
Signup for Free!
Signup to see your scores go up within 7 days! Learn & Practice with 1000+ FREE Notes, Videos & Tests.
|
© EduRev
|
Education Revolution
|
Follow Us
|
Signup to see your scores
go up within 7 days!
Access 1000+ FREE Docs, Videos and Tests
Takes less than 10 seconds to signup