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Derive the equations of motion given bel...

Derive the equations of motion given below: v=u+at

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SL ARORA-MECHANICS-Exercise
  1. What is the area under the velocity-time curve in the case of a body p...

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  2. Assertion:- A particle having zero acceleration must have constant spe...

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  3. Derive the equations of motion given below: v=u+at

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  4. A body projected up reached a point P of its path at the end of 4 seco...

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  5. When a body is subjected to a uniform acceleration, it always moves in...

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  6. A uniform moving cricket ball is turned back by hitting it with a bat ...

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  7. The position coordinate of a moving particle is given by x = 6 + 18t +...

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  8. A player throws a ball upwards with an initial speed of 29.4 ms^(-1). ...

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  9. Under what codition will the distance and displacement of a moving obj...

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  10. Under what conditions (s) is the magnitude of average velocity of an o...

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  11. What does the slope of velocity-time graph represent ?

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  12. The area under velocity-time graph for a particle in a given interval ...

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  13. The area under acceleration-time graph gives

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  14. The displacement-time graph for two particles A and B are straight lin...

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  15. Is the time variationof position, shown in the adjacent figure, observ...

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  16. Displacement-time graph of any object is shown in the adjacent figure....

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  17. Acceleration is defined as the rate of change of velocity. Suppose we ...

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  18. What are the characteristics of uniform motion ?

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  19. Use graphical method to derive the relation v^(2) - u^(2) = 2 as, wher...

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  20. Prove that x = x0 + v0 t + 1/2 at^(2).

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