A block of mass M 5.0 kgis hanging atequilibrium from an ideal spring with springconstant k = 250N/m. The block is pulled 0.15m below its equilibrium position and releasedfrom rest. The first block is again brought to restat equilibrium. An identical block is launched upinto the first block. The new block is movingwith a speed of v = 5.0 m when it collides withVoand sticks to the original block. (g) Calculate themaximum compression of the spring after thecollision of the two blocks.kMM

Answered: A block of mass M 5.0 kgis hanging at…

A block of mass M 5.0 kgis hanging at equilibrium from an ideal spring with spring constant k = 250N/m. The block is pulled ( m below its equilibrium position and release

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Question

A block of mass M 5.0 kgis hanging at
equilibrium from an ideal spring with spring
constant k = 250N/m. The block is pulled 0.15
m below its equilibrium position and released
from rest. The first block is again brought to rest
at equilibrium. An identical block is launched up
into the first block. The new block is moving
with a speed of v = 5.0 m when it collides with
Vo
and sticks to the original block. (g) Calculate the
maximum compression of the spring after the
collision of the two blocks.
k
M
M

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