A 4.25 g bullet traveling horizontally with a velocity of magnitude 375 m/s is fired into a wooden block with mass 1.10 kg, initially at rest on a level frictionless surface. The bullet passes through the block and emerges with its speed reduced to 122 m/s.

How fast is the block moving just after the bullet emerges from it?

Question

Physics

Glenn Mccullough

23 December, 06:51

A 4.25 g bullet traveling horizontally with a velocity of magnitude 375 m/s is fired into a wooden block with mass 1.10 kg, initially at rest on a level frictionless surface. The bullet passes through the block and emerges with its speed reduced to 122 m/s.

How fast is the block moving just after the bullet emerges from it?

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Answers (1)

Know the Answer?

Christian Merritt · Answer 1

block is moving at 0.97m/s after the bullet emerges from it

Explanation:

The problem is based on elastic collision

Given data

Mass of bullet m1 = 4.25g to kg we have 4.25/1000 = 0.00425kg

Mass of block m2 = 1.10kg

Initial velocity of bullet u1 = 375m/s

Initial velocity of block u2 = 0m/s

Final velocity of bullet v1 = 122m/s

Final velocity of block v2=?

To solve for the final velocity of the block let us apply the principles of conservation of momentum for an elastic collision

m1u1+m2u2=m1v1+m2v2

Substituting our data into the

expression we have

(4.25*10^-3*375) + (1.1*0) =

(4.25*10^-3*122) + (1.1*v2)

1.59+0=0.52+1.1v2

1.59-0.52=1.1v2

1.07=1.1v2

v2=1.07/1.1

v2 = 0.97m/s