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bob bundy
2013-07-23 18:09:55

This page has some great videos on this.  I recommend you view the Richard Garriott space video first.  (4th one on page)

http://physicsnet.co.uk/a-level-physics … -concepts/

Bob

barbie19022002
2013-07-23 17:52:10

let me try once in my rough..
And thanks to make me understand more clearly...because in this chapter I was hardly able to understand anything clearly...
Thanks, Bob Bundy....

bob bundy
2013-07-23 17:37:54

hi barbie19022002

If you get hit by a truck it hurts a lot more than if you get hit by a fly.  Clearly the mass of a moving object makes a difference.

But the velocity does too.  A fly that hits you at 60 mph hurts a lot more than a fly that just gently lands on you.

The momentum of a moving object is a measure of these two:

momentum = mass x velocity

When two objects collide they may swap some momentum.  This happens all the time in a game of snooker or pool.

The total momentum before and after the collision is constant.  This can enable you to work out how fast an object is moving after the event.

so v2 is given by

Can you finish this now?

Bob

barbie19022002
2013-07-23 17:17:47

Ya..I am...but I don't know I to use it..

Agnishom
2013-07-23 15:40:35

Are you aware of the law of conservation of momentum?

barbie19022002
2013-07-23 14:59:55

can you explain it to me more nicely...pls

bob bundy
2013-07-23 07:38:49

hi barbie19022002

You need to use the equation for conservation of momentum:

let m1 = 100 and m2 = 200

u1 = 2  and u2 = 1

After the collision the masses are the same but the velocities are now v1 (= 1.67 ) and v2

So you can 'plug in' the numbers and work out v2

Bob

barbie19022002
2013-07-23 00:10:04

I didn't expect in such a early period of time we will have ch-force and the laws of motion and now I am stuck with it..pls..some one help me..

Two Objects of Masses 100g and 200g are moving along the same line and direction with the velocity of 2 m s-1 and 1 m s-1 respectively. They collide and after collision, the first object moved at the velocity of 1.67 m s-1. Determine the velocity of the second object.