Balls bounce due to the elasticity of the material they are made of. When a ball hits a surface, the material compresses and stores energy. This energy is then released, causing the ball to bounce back up. The process works because the material is able to deform and return to its original shape, allowing the ball to bounce repeatedly.
1. Work out the average bounce height and put the results in your table. Draw a graph of the 'drop height' against the 'bounce height'. Make sure you choose suitable scales, labels, axes and complete the graph with a suitable line.2. Describe a pattern in your results. Use the data to help you describe this pattern.3. Make an evaluation of your data. Use the following questions to help you.How good is your data?How reliable is it?Are there any unexpected results?How could you get better results?4. Write a conclusion about your data. Explain your conclusion. Use ideas about energy changes.5. A squash ball gets very hot during a game because it bounces many times. Plan how you could test the effects of the temperature in the laboratory. What more does this tell you about what happens when balls bounce?
Well, honey, if 100% of that ball's kinetic energy magically transformed into potential energy, that ball would bounce back to the same height it was dropped from. But let's get real here, physics doesn't work like magic, so that ball ain't bouncing back up to the moon anytime soon.
In an isothermal process, the temperature remains constant, so work is done slowly to maintain this temperature. In an adiabatic process, there is no heat exchange with the surroundings, so work is done quickly, causing a change in temperature.
The work done by the gas in a process is denoted as w.
The relationship between isentropic compression work and the efficiency of a thermodynamic process is that the efficiency of a process increases as the isentropic compression work decreases. Isentropic compression work is the work required to compress a gas without any heat transfer or energy loss, and a lower amount of this work indicates a more efficient process.
It is part of the laxative process. That is what makes it work.
Double Eagle Corporation produces the prestigious "Double Eagle" golf ball in one department using a process costing system. At the beginning of January, 10,000 golf balls were in work-in-process. During January, 20,000 more golf balls were started. The ending work-in-process included 6,000 balls which were 100 percent completed for direct materials, 75 percent completed for direct labor, and 75 percent completed for overhead.
The process of charging World Cup balls involves embedding a microchip inside the ball, which can then be activated by a special device to transmit data such as speed, spin, and trajectory. This technology helps referees and coaches analyze the game and improve player performance.
Number 8 balls are just scams. Number 8 balls do not really work. Number 8 balls just randomly pick an answer to display to you, no matter what your question is.
no one knows. great balls work
examples of how this process makes good public policy and how it can sometimes go astray into bad public policy
Magnetism. The ATTRACTION and REPULSION of magnetic poles is the BASIC design process that makes electric motors work.
WELL.. the best balls are ultra balls.. you have to take alot of ultraballs.. well it work for me i even caught it when it had all the health..
dusk ball heal ball master ball poke ball a lot of balls will work all balls will work! that sounds odd
Yes.
No.
a lever makes work easier in the sense that it help carry a heavy load from the ground in a process called lifting!