I think there's more to this question.
Are the cables there to provide resistance to motion of the block? If so, what parameters?
Is the bullet fired straight up?
conserve momentum as the moving mass changes.
Liam fires a bullet into a block suspended by two cables, embedding the bullet in the block. The mass of the bullet is 5g and the mass of the block is 1g.
1) If the maximum height of the block is ,h, is 35 cm, how fast was the bullet originally moving?
(can you explain the steps i'm really confused)
3 answers
1) From the height H that the block+bullet rises, assuming conservation of energy for the process, calculate the initial velocity V' of the block after the bullet is embedded.
(m+M) V'^2/2 = (m+M) g H
V' = sqrt(2 g H) = 2.62 m/s
2) Momentum (but not mechanical energy) is conserved during the bullet-embedding process. If V is the initial bullet velocity,
mV = (m+M) V'
Solve for V.
m is the bullet mass and M is the block's mass.
Are you sure the block is lighter that the bullet?
(m+M) V'^2/2 = (m+M) g H
V' = sqrt(2 g H) = 2.62 m/s
2) Momentum (but not mechanical energy) is conserved during the bullet-embedding process. If V is the initial bullet velocity,
mV = (m+M) V'
Solve for V.
m is the bullet mass and M is the block's mass.
Are you sure the block is lighter that the bullet?
oops its 1 kg
1 answer