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Mass of ball m 0.0027 kg Radius of Ball r 0.02 m Moment of Inertia I 0.00000072 kg.m^2 Starting x x 0.9 m Starting y
Mass of ball | m | 0.0027 | kg |
Radius of Ball | r | 0.02 | m |
Moment of Inertia | I | 0.00000072 | kg.m^2 |
Starting x | x | 0.9 | m |
Starting y | y | 1 | m |
X-component of initial velocity | x' | 2 | m.s^-1 |
Y-component of initial velocity | y' | 1 | m.s^-1 |
(Initial angular velocity) Starting Spin | w | 505 | rad.s^-1 cw |
Drag co-efficient of tennis ball | 0.55 | ||
Gravity | g | 9.8 | m.s^-2 |
Calculate
- Drag Force
- Net Force
- Acceleration
Now calculate with Drag Force
- Change in x
- Change in y
- Final Velocity x-component
- Final Velocity y-component
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