Answer:
0.4167 ft/s
Explanation:
The law of conservation is applied to point A and B.
This gives:
[tex]T_{A} + V_{A} = T_{B} + V_{B}[/tex]
Hence, [tex]T_{A}[/tex] is the kinetic energy at the position A
[tex]V_{A}[/tex] is the velocity at point A
Considering point A, the kinetic energy at the point will be:
[tex]T_{A} = 0[/tex]
The potential energy will be:
[tex]V_{A} = (V_{A})_{g} + (V_{A})_{c}[/tex]
Hence, [tex]V_{Ag}[/tex] is the potential energy and [tex]V_{Ac}[/tex] is the kinetic energy
The potential energy is given by the following:
[tex]V_{Ag} = mgr[/tex]
substituting 1 lb for mg gives 0.4167 ft for r
Then the velocity, [tex]V_{Ag} = 1lb * 0.4167ft\\ = 0.4167 ft[/tex]
