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the boy pushing down
The physics in a trampoline are pretty cool I think. You have to bring up Newton's third law that says the an action has an equal and opposite reaction. This is applied as soon as you walk onto a trampoline and you can feel yourself bounce a little. What is happening is that the place that you jump on is stretched taunt and as soon as you step down, you transfer force onto the trampoline. The trampoline then, with its elasticity, flexes down and tries to push back up to its original shape. This pushes the object or person up with the force equal to the one that pushed the trampoline down. This is also the reason that you can jump. What it is, is that the earth is pushing back on your foot instead of the trampoline. This is works on everything from walking to a space ship taking off. It is the reaction that most people realize is happening.
His weight plus his mass x deceleration = m(g+a).
They will be unable to jump as high as they can when on the trampoline.
Trampolines are not a waste. They are fun. And the energy you use to jump up and down on a trampoline is chemical rather than thermal, although some heat is generated as a byproduct.
the boy pushing down
The physics in a trampoline are pretty cool I think. You have to bring up Newton's third law that says the an action has an equal and opposite reaction. This is applied as soon as you walk onto a trampoline and you can feel yourself bounce a little. What is happening is that the place that you jump on is stretched taunt and as soon as you step down, you transfer force onto the trampoline. The trampoline then, with its elasticity, flexes down and tries to push back up to its original shape. This pushes the object or person up with the force equal to the one that pushed the trampoline down. This is also the reason that you can jump. What it is, is that the earth is pushing back on your foot instead of the trampoline. This is works on everything from walking to a space ship taking off. It is the reaction that most people realize is happening.
His weight plus his mass x deceleration = m(g+a).
Example: I like to jump on my trampoline.
swing your arms and jump
trampoline
The trampoline mat is the thing that you jump on while using a trampoline. This will have to be replaced when it is used a lot.
The bounce of a trampoline is impacted by the amount of trampoline springs and the size of the trampoline. The more trampoline springs that are featured on a trampoline, the higher and better bounce the trampoline will produce. Larger trampolines produce better bounces because they are able to have more springs, providing more elasticity to the bed and generating a better bounce.
When you use a trampoline, you keep your legs mostly straight, and the energy of your landing is absorbed by the trampoline. When you jump on the ground, you bend your legs and they absorb the energy of your landing. If you jump down after using the trampoline, you may forget to bend your legs, and do yourself serious harm
It will jump on a trampoline or jump rope or swing a lasso.
The Bed.
I guess not, the trampoline on the trampoline doesnt have any grip on the ground so the kangaroo doesnt have a grip