Conservation of Momentum initial velocity curved path

pconn5 · Apr 7, 2009

Homework Statement

The frictionless track is made of a straight horizontal section and a quarter-circle with radius R = 5 m. A 1 Kg lump of putty is thrown toward the stationary 4 Kg block, and the block starts to slide with the putty stuck on it after the collision. If the normal force acting on the block/putty from the track is 98 N at point B, find the initial speed v0 of the putty.

Homework Equations

m1v0=(m1+m2)(vf)
...energy equation?

The Attempt at a Solution

I have been trying to use the energy equation to solve this problem but I am getting nowhere. The answer is 70 m/s. I can't seem to figure out what the velocity would be at the bottom of the arc. According to a(norm)=v^2/R, I found that v=9.8995 but don't know what to do with that...

rock.freak667 · Apr 7, 2009

Well depending on where B is the velocity would be different.

But say B is just at the bottom of the arc, then on the arc the forces acting are the Normal force R and the weight W. The resultant of these two gives mv^2/r

[tex]\frac{mv^2}{r}=R-W[/tex]

so find v from that.

Then put that into the momentum equation.

pconn5 · Apr 7, 2009

Ok I got it now. Thanks for the help.

Conservation of Momentum initial velocity curved path

Homework Statement

Homework Equations

The Attempt at a Solution

Attachments

Related to Conservation of Momentum initial velocity curved path

What is the Conservation of Momentum principle?

How does initial velocity affect the conservation of momentum?

Can conservation of momentum be applied to objects on a curved path?

What happens to the velocity of an object after a collision?

Why is the conservation of momentum principle important in conservation efforts?

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