yes it does the optimal ang
if the bal is thrown by making 45 degree angles. with the ground..it will travel maximum distance...
travel horizontally
A ball thrown across a football field is an example of a projectile.
The displacement, along the direction of measurement, is zero. It need not mean that the object is back at the starting point. The displacement-time graph, measuring the vertical displacement of a ball thrown at an angle, will have displacement = 0 when the ball returns to ground level but, unless you are extremely feeble, the ball will be some distance away, not at its starting point which is where you are. The use of such a graph is not unusual in the elementary projectile motion under gravity.
At 45 degrees. Yay! I got a proof done, check the link below, back to studying derivations for a infinite line of charge, ewww. The Related Question may answer yours. (See below left.)
The answer is 45 degrees. If given the same velocity, and thrown at say...10 degrees, to the ground, then the distance it would travel is the same as the distance it would travel if it were thrown 80 degrees. Complementary angles end up at the same distance horizontally.
No.
52.22sec
the distance it travels before falling to the ground
Naturally the ball in space will travel the longest distance as long as it does not bump into something along the way. Gravity on earth will cause the ball thrown to fall back to earth.
if the bal is thrown by making 45 degree angles. with the ground..it will travel maximum distance...
No this is simply to hold the ball together, it does not affect the distance the ball travels in any way.
That would depend on which angle the ball is thrown at, straight up, horizontal or somewhere inbetween.
They might seem like they have the same flight patterns, but they don't. A 12-6 curveball thrown by an over-hander will go from 12 to 6, but if the same is thrown by a 3/4 or side-armer, the ball will react a little more like a slider.
If the ball was thrown-in by a teammate, no. If the ball was thrown-in by an opponent, yes.
travel horizontally
The contact force will keep the ball moving but as the ball goes farther the ball slows down that's were the non contact force comes in it makes the ball not in contact