The ideal Height from the bounce of your ping pong ball
This test, is an investigation into the optimum height with the bounce of a ping pong ball when it is initial released. It is because of the unpredictability of the jump not always reaching the same elevation. This we are able to assume their are many elements effecting the bounce from the ping pong ball. The following try things out will figure out how different areas on which a ping pong ball is introduced affects the peak of the initial bounce.
How exactly does the surface on which a table tennis ball bounces affect their maximum level of initially bounce, offered other factors happen to be kept regular?
Factors which will affect the elevation of the 1st bounce
The gravitational potential energy & kinetic strength of the table tennis ball. The area on which it bounces.
The original height of release.
The dimensions in the surface on which it bounces.
The viewpoint of discharge.
The speed of projection.
The Temperature with the ball.
The pressure within the ball.
The bedroom conditions which each surface is placed (Room temperature, wind flow speed etc .. ) The force where the ball is introduced.
The acceleration due to gravity.
The density of the the atmosphere within just that place.
The type, size, weight, mass, density and volume of the ping pong ball.
The top on which the ping pong ball bounces, material which the surface area is made away of. Centered variable
Optimum height achieved with the initially bounce.
The Initial Elevation of discharge.
The gravitational potential energy & kinetic energy from the ping pong ball. The sizes of the surface on which it bounces.
Angle of discharge.
Speed of projection.
The kind, size, pounds, mass, thickness and volume of the table tennis ball. Heat and pressure of the ball.
The Room circumstances of which each surface is placed (Room temp, wind speed etc .. ) The pressure with which the ball is released.
Bibliography: " Coefficient of restitution. " Wikipedia. Wikimedia Foundation, 6 Dec. 2014. Web. 21 years old June 2014.