Answer :
Here are the steps you would need to follow:
#1). Define what 'the 'X is, and how it's related to the ball.
#2). Be clear on how 'the X' is related to the 'known velocity'.
#3). Identify how the 'known velocity' is related to the action of the ball when it's launched.
With this information in front of you, you'll have a much better chance
of answering the question.
With none of it in front of me, I have no chance at all.
#1). Define what 'the 'X is, and how it's related to the ball.
#2). Be clear on how 'the X' is related to the 'known velocity'.
#3). Identify how the 'known velocity' is related to the action of the ball when it's launched.
With this information in front of you, you'll have a much better chance
of answering the question.
With none of it in front of me, I have no chance at all.
Use the equation:
[tex]X=ut+ \frac{1}{2} at^{2} [/tex]
where u is the initial velocity, a is the acceleration downwards (in this case [tex]a=g=9.81m s^{-2} [/tex])
Hope this helps :)
[tex]X=ut+ \frac{1}{2} at^{2} [/tex]
where u is the initial velocity, a is the acceleration downwards (in this case [tex]a=g=9.81m s^{-2} [/tex])
Hope this helps :)