Sunday, August 4, 2019

The Physics of Swinging :: Physics Swinging Essays

The Physics of Swinging My son begs to watch me swing on one of the swing sets at the park. I tell him that there is so much work involved and I don’t know if I have the energy to do all of the many things it takes to make a swing move. It’s such an innocent plea, but complicated in the terms of the actual process of it. The physics of swinging has so many components. From resonance to force, and from the period of the swing to the conversion of energy, the process of swinging is actually a complicated matter. While you watch a person swing, place your hand at the maximum point of the swing’s achieved height and then count how many seconds it takes to return back to that same height. You have just measured the period of the swing. The period of the swing is the time it takes the swing to make one full move back and forth. The equation used to solve for the period mathematically is T = 2p (square root of L/g), where L is the length of the pendulum, and g is gravity. There are a few things that can change the period of a pendulum. As length increases and as the force of gravity increases so will the period. Likewise, when both gravity and length of the chains decrease, the period does also. My reference Mark Nethercott says that if there are no outside influences, the period stays constant at about 15 degrees of arch, but the amplitude must be low. This statement corresponds with Newton’s first law of motion (law of inertia) that says, â€Å"Every object remains at rest or in motion in a straight line at constant speed unless acted on by an unbalanced force.† (Physics, A World View p.31). A force other than gravity and the length of the swing can alter the outcome of a period. While standing with your hand out, measuring the period, give the person on the swing a push. â€Å"Periodic motion is motion that repeats itself at regular intervals of time and resonance is periodic increases of the amplitude of periodic motion due to a force at a constant interval. So while you push the person on the swing, you are creating a form of resonance for the swing.† –Mark Nethercott. There is one last force that changes the period of a swing, and that is squatting and standing, or leaning back and forth.

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