Hi guys, could you help me with this question:
A ball is thrown on level ground at an initial speed of V m/s at an angle of projection of a(alpha)
Assume that t seconds after release, the horizontal and vertical displacement are given by
x= Vtcosa while y=VtSina- 1/2gt^2
I've shown that the equation of the horizontal range is V^2 sin2a/g as well
So the question is: when V=30m/s, the ball lands 45 metres away. Take g=10m/s
i) find two possible values of a(alpha): i've found this to be 15 and 75
ii) A 2 metre high fence is placed 40metres from the thrower. Examine each trajectory to see whether the ball will still travel 45metres?(how would do you
prove this? what equations do we use?)
thanks!
A ball is thrown on level ground at an initial speed of V m/s at an angle of projection of a(alpha)
Assume that t seconds after release, the horizontal and vertical displacement are given by
x= Vtcosa while y=VtSina- 1/2gt^2
I've shown that the equation of the horizontal range is V^2 sin2a/g as well
So the question is: when V=30m/s, the ball lands 45 metres away. Take g=10m/s
i) find two possible values of a(alpha): i've found this to be 15 and 75
ii) A 2 metre high fence is placed 40metres from the thrower. Examine each trajectory to see whether the ball will still travel 45metres?(how would do you
prove this? what equations do we use?)
thanks!
