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I'm working on projectile motion problem and it is a two-fold problem about throwing a baseball from outfield to home plate. The theory is that the ball arrives faster if thrown on a bounce. "Suppose that after the bounce the ball rebounds at the same angle theta as it had when initially released but it loses half its speed. (a) Assuming the ball is always thrown with the same initail speed, at what angle theta should the ball be thrown in order to go the same distance D with one bounce as one thrown upward at 45.0 deg. with no bounce?
I have solved the no bounce time and distance using the arbitrarily chosen value of 50 m/s as an initial velocity with the notion that I would use this same initial velocity to solve for the "bounce" problem. Using this velocity I have found that the total TOF = 7.22s and the ball travels a distance "D" of 255.30 m. So far so good.
Setting up for the "bounce" problem I am dividing the total distance "D" into two sections D-1 with an initial velocity of 50 m/s and D-2 with an initial velocity of 25 m/s. I know that I have to add D-1 and D-2 to = "D" or 255.30 meters. What I don't know is how to develop an equation to solve for either time or for the angle theta without having any further data to work with.
I'm coming up with some really odd numbers for D-1 and D-2 TOF. For instance for D-1 I am getting 10.204(sin theta) = TOF and 5.102(sin theta) for D-2 and that doesn't seem to get me where I need to be if I don't know or can't solve for theta.
Any suggestions?
I have solved the no bounce time and distance using the arbitrarily chosen value of 50 m/s as an initial velocity with the notion that I would use this same initial velocity to solve for the "bounce" problem. Using this velocity I have found that the total TOF = 7.22s and the ball travels a distance "D" of 255.30 m. So far so good.
Setting up for the "bounce" problem I am dividing the total distance "D" into two sections D-1 with an initial velocity of 50 m/s and D-2 with an initial velocity of 25 m/s. I know that I have to add D-1 and D-2 to = "D" or 255.30 meters. What I don't know is how to develop an equation to solve for either time or for the angle theta without having any further data to work with.
I'm coming up with some really odd numbers for D-1 and D-2 TOF. For instance for D-1 I am getting 10.204(sin theta) = TOF and 5.102(sin theta) for D-2 and that doesn't seem to get me where I need to be if I don't know or can't solve for theta.
Any suggestions?