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omar1
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Ok, I'm having some difficulty with a problem. It just doesn't add up.
1. Homework Statement
Consider a 2.4kg ball and a 12.4kg ball in free fall. A) Find the Force that is acting on each ball. B) Find the acceleration of each ball, given Earth's gravity of 9.80 m/s/s.
\omega = mg
F=ma => a=\frac{F}{m}
formula:
F1=23.52N
F2=121.52N\frac{23.52N}{2.4kg}= 9.80\frac{m}{s^2}
\frac{121.52N}{12.4kg}= 9.80\frac{m}{s^2}
I've solved the Force, part A, but the acceleration, part B, is making me crazier. I come out with g (9.8m/s2), this can't be correct!? So I think I must be missing a Kinematics formula, but I have neither velocity or time to work with.
The ball has a weight, so the acceleration of both balls must be faster than gravity? Correct?Any help in the right direction would be appreciated. Thanks!
1. Homework Statement
Consider a 2.4kg ball and a 12.4kg ball in free fall. A) Find the Force that is acting on each ball. B) Find the acceleration of each ball, given Earth's gravity of 9.80 m/s/s.
Homework Equations
\omega = mg
F=ma => a=\frac{F}{m}
The Attempt at a Solution
formula:
F1=23.52N
F2=121.52N\frac{23.52N}{2.4kg}= 9.80\frac{m}{s^2}
\frac{121.52N}{12.4kg}= 9.80\frac{m}{s^2}
I've solved the Force, part A, but the acceleration, part B, is making me crazier. I come out with g (9.8m/s2), this can't be correct!? So I think I must be missing a Kinematics formula, but I have neither velocity or time to work with.
The ball has a weight, so the acceleration of both balls must be faster than gravity? Correct?Any help in the right direction would be appreciated. Thanks!
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