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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.
The bigger the ball is the farther it will go.
No. When the ball falls, there are two forces acting on it; one is the gravitational force and the other air resistance, which is dependant on speed. At the point it is released. Its instantaneous speed is 0m/s The next second, 10m/s, (result of acceleration). the ball will undergo decreasing acceleration. Thus the distance it falls each second is different.
The Ball has energy in the form of potential energy as if it was released it would fall to the ground. The pitcher uses chemical energy to move his arm and give momentum to the ball. The ball's energy is now transformed to kinetic energy as it moves through the air.
The time taken by the ball to reach the maximum height is 1 second. The maximum height reached by the ball is 36 meters.
Distance traveled and time taken to travel that distance.
The force exerted on the table by a ball IS the weight of the ball.
Speed is measured by distance traveled divided by time taken. These radar guns measure exactly how far the ball goes within a time frame.Ê
No this is simply to hold the ball together, it does not affect the distance the ball travels in any way.
How does stitching effect the distance a soccer ball will travel?
Yes if the wind is blowing hard it will move the distance of the ball
Yes, ball preasure does effect kicking distance.
All other things being constant - the faster the ball is going when it hits, the higher it will bounce. And the higher it was when it is released, the faster it will be going.
yes..."As a softball flies through the air, the air pushes back against it, resisting its motion and decreasing the distance the ball travels."...that is why
... What is the speed of the ball? Distance = 17.5 m Time = 2.6 sec Speed (of sound) = 340 m/sec Speed (of ball) = ? Typically Speed = Distance/time (which means 17.5/2.6. But here we also have to calculate the speed of the sound of the ball traveling when the ball hits the pins till it reaches the ears of the bowler) Time (of sound) = Distance/Speed (of sound) = 17.5/340 = 0.0515 sec Time (of ball) = 2.6 - 0.0515 =2.5485 sec Speed (of ball) = Distance/Time (of ball) = 17.5/2.5484 = 6.87 m/sec
Monster's Ball was released on 12/26/2001.
Yes.Because of the differneces in mass in each ball.