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Numerical problems Calculate The heigh...

Numerical problems Calculate
The height to which an object of 0.5 kg will rise if 1 J of energy is applied do it

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To solve the problem of calculating the height to which an object of mass 0.5 kg will rise when 1 Joule of energy is applied, we can use the formula for gravitational potential energy: ### Step-by-Step Solution: 1. **Understand the formula for potential energy**: The potential energy (PE) of an object at height \( h \) is given by the formula: \[ PE = mgh ...
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S CHAND IIT JEE FOUNDATION-WORK AND ENERGY-QUESTION BANK -3
  1. Numerical problems Calculate Speed of a 1 kg mass having KE. equal t...

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  2. Numerical problems Calculate Velocity of a body of mass 100 g having...

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  3. Numerical problems Calculate The height to which an object of 0.5 kg...

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  4. Numerical problems Calculate The kinetic energy of a boy of mass 50 ...

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  5. Numerical problems Calculate Work done in holding a 15 kg bag while ...

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  6. A mass of 4 kg originally at rest is pulled by a string along a smooth...

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  7. A mass of 4 kg originally at rest is pulled by a string along a smooth...

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  8. A ball of mass 500 g falls from a height of 4 m Find the K.E. of the b...

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  9. A body of mass 10 kg is dropped from a height of 20 m. (Take g = 10 m/...

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  10. A body of mass 10 kg is dropped from a height of 20 m. (Take g = 10 3/...

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  11. A body of mass 10 kg is dropped from a height of 20 m. (Take g = 10 3/...

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  12. Use the figure below to fmd the following the skier's gravitati...

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  13. Use the figure below to fmd the following the skier's gravitati...

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  14. Use the figure below to fmd the following the skier's kinetic e...

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  15. A person lifts a parcel of mass 20 kg 1.5 m up from the ground and put...

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  16. A person lifts a parcel of mass 20 kg 1.5 m up from the ground and put...

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  17. A person lifts a parcel of mass 20 kg 1.5 m up from the ground and put...

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  18. A person lifts a parcel of mass 20 kg 1.5 m up from the ground and put...

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  19. Suppose that while riding bike, a person coasts down both a small hill...

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  20. Use the following to create a concept map.

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