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State and establish impulse-momentum the...

State and establish impulse-momentum theorem.

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The following problems illustrate the effect of a time-dependent force of a large average magnitude which acts on a moving object only for a short duration. Such forces are called 'impulsive' forces. According to the impulse-momentum theorem, impulse delivered to a body is equal to the change of linear momentum of the body. A ball of mass 250 g is thrown with a speed of 30 m//s . The ball strikes a bat and it is hit straight back along the same line at a speed of 50 m//s . Variation of the interaction force, as long as the ball remains in contact with the bat, is as shown in Fig. Linear momentum of the ball immediately after colliding with the floor will be

The following problems illustrate the effect of a time-dependent force of a large average magnitude which acts on a moving object only for a short duration. Such forces are called 'impulsive' forces. According to the impulse-momentum theorem, impulse delivered to a body is equal to the change of linear momentum of the body. A ball of mass 250 g is thrown with a speed of 30 m//s . The ball strikes a bat and it is hit straight back along the same line at a speed of 50 m//s . Variation of the interaction force, as long as the ball remains in contact with the bat, is as shown in Fig. Maximum force exerted by the bat on the ball is

The following problems illustrate the effect of a time-dependent force of a large average magnitude which acts on a moving object only for a short duration. Such forces are called 'impulsive' forces. According to the impulse-momentum theorem, impulse delivered to a body is equal to the change of linear momentum of the body. A ball of mass 250 g is thrown with a speed of 30 m//s . The ball strikes a bat and it is hit straight back along the same line at a speed of 50 m//s . Variation of the interaction force, as long as the ball remains in contact with the bat, is as shown in Fig. After collision with the hard floor, the ball will bounce to a height

Some Special Problems on Impulse Momentum Theorem

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SL ARORA-Laws of Motion-Exercise
  1. Two masses M and m are connected at the two ends of an inextensible st...

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  2. Is impulse a scalar or vector quantity ? Write its SI unit.

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  3. State and establish impulse-momentum theorem.

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  4. Explain the term impulse Show that impulse of a variable force is equa...

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  5. What is friction ?

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  6. Define coefficient of friction and angle of friction and hence derive ...

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  7. Define angle of friction and angle of repose. Show that both are numer...

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  8. It is easier to pull a lawn roller than to push it because pulling .

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  9. Describe any two methods of reducing friction.

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  10. Define force of friction. How does the use of ball bearing reduce fric...

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  11. What do you mean by ball bearings ? How sliding friction is converted ...

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  12. Calculate the amount of work done in moving a body up a rough inclined...

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  13. Derive an expression for the work done when a body slides down a rough...

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  14. Obtain an expression for the acceleration of a body sliding down a rou...

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  15. Define the term coefficient of limiting friction between the surfaces....

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  16. When a horse pulls a cart, by Newton's III law the cart also pulls the...

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  17. What is banking of roads ? Why is it essential ? Derive the equation f...

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  18. A small body tied to one end of the string is whirled in a vertical ci...

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  19. IF a stone is tied to one end of the string and whirled in verticle ci...

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  20. A person of mass m isstanding in a lift. Find his apparent weight when...

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