CompuChip said:
I understood the question alright, but did you?
You said:
I claimed that you can convert this into an equation, and asked you if you have any clue which equation that is. (Hint: it has to do with the vertical velocity). From this equation, you will be able to solve the delta time that you need for the horizontal distance.
if it is traveling horizontally = there is no vertical velocity.
that is what I know. am I right?
vertical V equation is Vy = Vyi + gravity x delta times
so 0 = Vi x sin37 + (-32) x delta times
= approximately 15 ft/s^2 + (-32) x delta times
so that delta times is 15/32 sec
and the height of the wall = displacement to y axis
so Y = Yo + Vyi(=15) x delta times + 1/2 x G x delta times^2
= 0 + 15 x 15/32 + (-16) x (15/32)^2
= 0 + 7 + (-3.5)
so height is approximately 3.5 ft
do u agree with me?
and I want you to confirm one more question followed by this problem.
" if when the object bounces away from the wall, its speed is reduced to one half of its original speed, then how far away from the wall does it hit the ground ? "
this is second question.
I've tried to resolve this problem as well.
here is my attemption.
since height of wall is 3.5 ft
delta Y = -3.5 = Vyi - g x delta times
= Vyi(=0) -32 x delta times
so delta times is approximately 0.1 sec ( in this case, initial velocity of Y axia is 0. right? )
btw i want to know x displacement. so X = Xo + Vix x delta times + 1/2 x acceleration x delta times^2
= 0 + 10 x delta times + 1/2 x acceleration(=0) x delta times^2
= 0 + 10 x 0.1 + 0 = 1 ft
so distance from the wall is 1ft
Vix = 25 x cos37 / 2 ( since its speed is reduced ) = app 10ft/s
Am i doing right? anyway thank you for the willingness to help me out :)
