Physics
Grade-10
Easy
Question
Mass of the blue ball is 0.88 Kg and mass of the pink ball is 1.50 kg
The following example follows law of conservation of momentum.
Is the statement true or false?
Initial:

Final:

- True
- False
Hint:
Check using conservation of momentum formula.
The correct answer is 'False'.
Initial:

Final:

Since the law of conservation of momentum says that initial momentum should be equal to final momentum, and the values given here do not match accordingly; the statement is false.
Related Questions to study
Physics
Mass of the blue ball is 0.88 Kg and mass of the pink ball is 1.50 kg
The following example follows law of conservation of momentum.
Is the statement true or false?
Initial:

Final:

- True
- False
Mass of the blue ball is 0.88 Kg and mass of the pink ball is 1.50 kg
The following example follows law of conservation of momentum.
Is the statement true or false?
Initial:

Final:

PhysicsGrade-10
- True
- False
Physics
Mass of the blue ball is 0.88 Kg and mass of the pink ball is 1.50 kg
The following example follows law of conservation of momentum.
Is the statement true or false?
Initial:

Final:

- True
- False
Mass of the blue ball is 0.88 Kg and mass of the pink ball is 1.50 kg
The following example follows law of conservation of momentum.
Is the statement true or false?
Initial:

Final:

PhysicsGrade-10
- True
- False
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Mass of the blue ball is 0.88 Kg and mass of the pink ball is 1.50 kg
“The following example follows the law of conservation of momentum.”
Is the statement true or false?
Initial:

Final:

- True
- False
Mass of the blue ball is 0.88 Kg and mass of the pink ball is 1.50 kg
“The following example follows the law of conservation of momentum.”
Is the statement true or false?
Initial:

Final:

PhysicsGrade-10
- True
- False
Physics
In the explosion of a cracker or a bomb.
- Energy is produced
- Momentum is conserved
- Internal energy is absorbed
- Momentum remains un conserved
In the explosion of a cracker or a bomb.
PhysicsGrade-10
- Energy is produced
- Momentum is conserved
- Internal energy is absorbed
- Momentum remains un conserved
Physics
Law of conservation of momentum states that:
- The sum of momenta of the two objects before collision is equal to the sum of momenta after the collision provided there is no external unbalanced force acting on them.
- Magnitude of the final momenta = magnitude of the initial moment.
-
- All the above
Law of conservation of momentum states that:
PhysicsGrade-10
- The sum of momenta of the two objects before collision is equal to the sum of momenta after the collision provided there is no external unbalanced force acting on them.
- Magnitude of the final momenta = magnitude of the initial moment.
-
- All the above
Physics
What can you say about the numerical data from the figure, in connection with the conservation of linear momentum?

- It is conserved
- Before collision > after collision
- After collision > before collision
- Cannot say
What can you say about the numerical data from the figure, in connection with the conservation of linear momentum?

PhysicsGrade-10
- It is conserved
- Before collision > after collision
- After collision > before collision
- Cannot say
Physics
Observe the image and answer the question below:

What is the momentum of object A after collision?
What is the momentum of object A after collision?
- 2050 m/s
- 1800 m/s
- 3200 m/s
- 650 m/s
Observe the image and answer the question below:

What is the momentum of object A after collision?
What is the momentum of object A after collision?
PhysicsGrade-10
- 2050 m/s
- 1800 m/s
- 3200 m/s
- 650 m/s
Physics
Observe the image and answer the question below:

What is the momentum of object B before collision?
What is the momentum of object B before collision?
- 2050 m/s
- 1800 m/s
- 3200 m/s
- 650 m/s
Observe the image and answer the question below:

What is the momentum of object B before collision?
What is the momentum of object B before collision?
PhysicsGrade-10
- 2050 m/s
- 1800 m/s
- 3200 m/s
- 650 m/s
Physics
Observe the image and answer the question below:

What is the momentum of object A before collision?
What is the momentum of object A before collision?
- 2050 m/s
- 1800 m/s
- 3200 m/s
- 650 m/s
Observe the image and answer the question below:

What is the momentum of object A before collision?
What is the momentum of object A before collision?
PhysicsGrade-10
- 2050 m/s
- 1800 m/s
- 3200 m/s
- 650 m/s
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Mass of the blue ball is 0.43 Kg and mass of the pink ball is 0.45 kg
The following example follows law of conservation of momentum. Is the statement true or false?
Initial:

Final:

- True
- False
Mass of the blue ball is 0.43 Kg and mass of the pink ball is 0.45 kg
The following example follows law of conservation of momentum. Is the statement true or false?
Initial:

Final:

PhysicsGrade-10
- True
- False
Physics
Mass of the blue ball is 0.43 Kg and mass of the pink ball is 0.45 kg
The following example follows law of conservation of momentum. Is the statement true or false?
Initial:

Final:

- True
- False
Mass of the blue ball is 0.43 Kg and mass of the pink ball is 0.45 kg
The following example follows law of conservation of momentum. Is the statement true or false?
Initial:

Final:

PhysicsGrade-10
- True
- False
Physics
Mass of the blue ball is 0.43 Kg and mass of the pink ball is 0.45 kg
The following example follows the law of conservation of momentum. Is the statement true or false?
Initial:

Final:

- True
- False
Mass of the blue ball is 0.43 Kg and mass of the pink ball is 0.45 kg
The following example follows the law of conservation of momentum. Is the statement true or false?
Initial:

Final:

PhysicsGrade-10
- True
- False
Physics
Mass of the blue ball is 0.43 Kg and mass of the pink ball is 0.45 kg
The following example follows the law of conservation of momentum. Is the statement true or false?
Initial:

Final:

- True
- False
Mass of the blue ball is 0.43 Kg and mass of the pink ball is 0.45 kg
The following example follows the law of conservation of momentum. Is the statement true or false?
Initial:

Final:

PhysicsGrade-10
- True
- False
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“We can derive the law of conservation of momentum from second law of motion.”
This statement is ____.
- True
- False
“We can derive the law of conservation of momentum from second law of motion.”
This statement is ____.
PhysicsGrade-10
- True
- False
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What is the abbreviation used for initial velocity and final velocity?
- U, V
- V, U
- u, v
- v, u
What is the abbreviation used for initial velocity and final velocity?
PhysicsGrade-10
- U, V
- V, U
- u, v
- v, u