2. A pendulum bob, m,, of mass 0.300 kg is held at a vertical height of 0.400 m above the bottom of its swing. It is then released and swings down. Just as it passes through its lowest point in the swing it hits a block, m, of mass 0.0500 kg. On collision m, transfers 20. 0% of its total energy to m2. m, then slides for 1.00 m along a flat surface where the coefficient of friction between m, and the surface is 0.100. Determine: d) The max height of m2 on the ramp before it comes to a momentary stop. (Ignore friction on the ramp) momentary { stop mess! mass a 1,00m- Mx 0,100 hit
2. A pendulum bob, m,, of mass 0.300 kg is held at a vertical height of 0.400 m above the bottom of its swing. It is then released and swings down. Just as it passes through its lowest point in the swing it hits a block, m, of mass 0.0500 kg. On collision m, transfers 20. 0% of its total energy to m2. m, then slides for 1.00 m along a flat surface where the coefficient of friction between m, and the surface is 0.100. Determine: d) The max height of m2 on the ramp before it comes to a momentary stop. (Ignore friction on the ramp) momentary { stop mess! mass a 1,00m- Mx 0,100 hit
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Please give answer for part D
Transcribed Image Text:2. A pendulum bob, m,, of mass 0.300 kg is held at a vertical height of 0.400 m above the
bottom of its swing. It is then released and swings down. Just as it passes through its lowest
point in the swing it hits a block, m, of mass 0.0500 kg. On collision m, transfers 20. 0% of
its total energy to m,. m, then slides for 1.00 m along a flat surface where the coefficient of
friction between m, and the surface is 0.100. Determine:
d) The max height of m2 on the ramp before it comes to a momentary stop. (Ignore
friction on the ramp)
momentary
{ stop
mess!
mass a
L0.400m
1,00m
Mx 0,100
hit
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