To determine the initial velocity at which the ball was thrown, we can use the kinematic equation for vertical motion:
h=vit−12gt2h = v_i t - frac{1}{2} g t^2h=vit−21gt2
where:
- hhh is the maximum height reached by the ball (in this case, zero since it returns to the same level)
- viv_ivi is the initial velocity of the ball
- ttt is the time the ball spends in the air (4 seconds)
- ggg is the acceleration due to gravity (approximately 9.8 m/s29.8 , ext{m/s}^29.8m/s2)
Since the ball returns to the same level, the maximum height reached is zero. Plugging in the given values, the equation becomes:
0=vi⋅4−12⋅9.8⋅420 = v_i cdot 4 - frac{1}{2} cdot 9.8 cdot 4^20=vi⋅4−21⋅9.8⋅42
Simplifying further:
0=4vi−78.40 = 4v_i - 78.40=4v<span class="pstrut" style="hei