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Show that the slope of displacement-time...

Show that the slope of displacement-time graph is equal to the velcoity of uniform motion.

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Show that the slope of displacement-time graph is equal to the velcoity of unitorm motion.

What does the slope of displacement-time graph give?

Assertion: The slope of displacement-time graph of a body moving with high velocity is steeper than the slope of displacement-time graph of a body with low velocity. Reason: Slope of displacement-time graph = Velocity of the body.

Draw the position-time graph for an object in uniform motion. Show that the slope of the position-time graph gives the velocity of the object.

Asserion : The acceleration of an object at a particular time is the slope of the velocity-time graph at that instant of time. Reason : For uniform motion acceleration is zero.

Assertion : The position-time graph of a body moving uniformly is a straight line parallel to position-axis. Reason : The slope of position-time graph in a uniform motion gives the velocity of an object.

The velocity -time graph for a body with non-uniform motion is a

Acceleration-time graph of a moving object is shown in figure. Draw the velocity- time graph and displacement-time graph corresponding to this type of motion. .

Write some uses of velocity-time graph of an object in uniform motion.

The displacement-time graph of a body is shown in. . The velocity-time graph of the motion of the body will be .

SL ARORA-MECHANICS-Exercise
  1. Use graphical method to derive the relation v^(2) - u^(2) = 2 as, wher...

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

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  3. Show that the slope of displacement-time graph is equal to the velcoit...

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  4. Draw velocity-time graphof uniform motion and prove that the area unde...

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  5. Using graphical method, derive the equations v = u + at and s = ut +...

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  6. Use velocity time graph to derive the relation : v^(2)-u^(2)=2 as, whe...

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  7. Distinguish between average velocity and instanteneous velocity. If th...

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  8. Explain with example the distinction between the magnitude of average ...

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

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  10. Using graphical method, derive the equations v = u + at and s = ut +...

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  11. Check the dimensional consistency of the following equations : (i) u...

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  12. Prove the following relations by calculus method: v^2-u^2=2as

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  13. Use integeration technique to prove that the distance travelled in nth...

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  14. Show that area under the velocity-time graph of an object moving with ...

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  15. Derive the three kinematic equations for uniformly accelerated motion ...

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  16. Acceleration-time graph of a moving object is shown in figure. Draw th...

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  17. Draw a graph showing the difference between distance and displacement.

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  18. Draw the following graphs (expected nature only) between distance and ...

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  19. Draw the following graphs (expected nature only) between distance and ...

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  20. The velocity-displacement graph of a particle is shown in the figure. ...

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