Angular Momentum

Angular Momentum

Last week on our physics class we had a really good time. Who knew physics could be fun? This happen on Friday and it was an interesting experience. Mr. Popoff, our physics teacher, brought some items from the Lab Room, which would demonstrate angular momentum. He brought a spinning pad, or table, but it’s more like a pad; he also brought a bike wheel with handles on each side, and finally one of my favorite items ever, a gyroscope. I've always liked the gyroscopes, because they look very fancy and elegant, but the type of gyroscope Mr. Popoff brought was a scientific one, it was still cool. For the first item, he presented the spinning pad; he stepped on to it with two weights on his hands and asked one of us students to spin him around. The way he spun was simple, at first he was spun with his arms stretched and as the student let go of him, he coiled his arms and he spun faster. The reason I think he spun faster when he coiled his arms, is that when his arms were stretched, the mass was distributed on the edges of the radius and so he spun slowly because of this. When he spun with his hand on his side, he spun faster, maybe because all the mass was in the center of the pad. Later he grabbed the bike wheel; he spun it and then placed it on the rope, and so the wheel remained on the rope spinning and did not fall for a couple of seconds. Then he grabbed the gyroscope, reeled a piece of thread in it and then he reeled it out with speed and the gyroscope spun on a small pedestal and did not fall, later Mr. Popoff told us to carry it and place it on the piece of thread, we did as told and incredibly it continue to spin and did not fall for a while. It was cool. The reason why both the bike and the gyroscope did not fall was because both conserved their own vertical angular momentum.