Answer:
a) 3.56m/s
b) 1.73m
Explanation:
We have to treat this as a parabolic motion problem:
we will use the next formulas:
[tex]V=Vo+a*t\\Vy^2=Vyo^2+2*a*Y\\X=Vox*t[/tex]
we first have to calculate the initial velocity of the basketball player:
[tex]Vy^2=Vyo^2+2*a*Y\\0^2=Vyo^2+2*(-9.8)*(0.650)\\Vyo=\sqrt{2*9.8*0.650} \\Vyo=3.56 m/s[/tex]
the final velocity is zero when he reaches the maximun height.
To answer the second part we need to obtain the time to reach the maximun height, so:
[tex]V=Vo+a*t\\\\0=3.56+(-9.8)*t\\t=0.36 seconds[/tex]
Now having that time, let's find the distance on the X axis, the X axis behaves as constant velocity movement, so:
[tex]X=Vox*t\\X=4.80*0.36\\X=1.73m[/tex]
