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A cricket ball of mass 100 g moving with...

A cricket ball of mass 100 g moving with a speed of `30 "ms"^(-1)` is brought to rest by a player in 0.03 s. Find the average force applied by the player.

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To solve the problem of finding the average force applied by the player to bring a cricket ball to rest, we can follow these steps: ### Step-by-Step Solution: 1. **Convert Mass from grams to kilograms**: - Given mass of the cricket ball = 100 g - To convert grams to kilograms, we divide by 1000. \[ ...
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ICSE-LAWS OF MOTION-TOPIC 2 (4 Marks Questions )
  1. A ball of mass 10 g is moving with a velocity of 50 "ms"^(-1). On appl...

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  2. A cricket ball of mass 100 g moving with a speed of 30 "ms"^(-1) is b...

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  3. A cricket ball of mass 100 g moving with a speed of 30 "ms"^(-1) is b...

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  4. Two balls A and B of masses m and 2 m are in motion with velocities 2...

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  5. Two balls A and B of masses m and 2 m are in motion with velocities 2...

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  6. Two balls A and B of masses m and 2 m are in motion with velocities 2...

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  7. A force of 10 N acts on a body of mass 2 kg for 3s , initially at rest...

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  8. A force of 10 N acts on a body of mass 2 kg for 3s , initially at rest...

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  9. A force acts for 10 s on a stationary body of mass 100 kg, after which...

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  10. A force acts for 10 s on a stationary body of mass 100 kg, after which...

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  11. A force acts for 10 s on a stationary body of mass 100 kg, after which...

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  12. A car is moving with a uniform velocity 30 "ms"^(-1) . It is stopped i...

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  13. A car is moving with a uniform velocity 30 "ms"^(-1) . It is stopped i...

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  14. A car is moving with a uniform velocity 30 "ms"^(-1) . It is stopped i...

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  15. A bullet of mass 50 g moving with an initial velocity 100 "m s"^(-1) ...

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  16. A bullet of mass 50 g moving with an initial velocity 100 "m s"^(-1) ...

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  17. A bullet of mass 50 g moving with an initial velocity 100 "m s"^(-1) ...

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  18. A bullet of mass 50 g moving with an initial velocity 100 "m s"^(-1) ...

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  19. Use Newton.s second law of motion to explain the following instances: ...

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  20. Use Newton.s second law of motion to explain the following instances: ...

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