Answer:
They both will reach the ground at the same time. it will be a tie
Explanation:
Given
[tex]m_1 = 1 lb\\\\m_2 = 100 lb\\\\height,h = 10 ft\\\\[/tex]
Known
acceleration due to gravity,[tex]g = 32.2 ft/s^2\\[/tex]
Solution
Since the balls are dropped freely, their inital velocity u is zero.
let us find the final velocity of 1 pound ball
[tex]v^2=-u^2 + 2gh\\\\v^2 = 0^2 + 2 \times 32.2 \times 10\\\\v^2 = 196\\\\v = 25.4 ft/s[/tex]
Note that in the equation is [tex]v^2=-u^2 + 2gh[/tex] the mass of the object has no place. So, The final velocity is independent of the mass
so the final velocity of the 100 pound ball will also be 25.4 ft/s
Now let us find the time taken for the 1 pound ball
[tex]v = u + gt\\\\25.4 = 0+ 32.2t\\\\t = 0.788s[/tex]
Since the equation [tex]v = u + gt[/tex] does not depend on mass, the 100 pound ball will also reach the ground at time t = 0.788 s
