![]() Imagine a row of molecules on the surface of the inside of the ring. Now ask the students to consider the fact that as the metal gets hotter, the molecules get farther apart. However, since metals expand when heated, many will believe that the metal will expand into the hole, making the hole smaller. Suggestions for Presentation: Students will have no trouble in accepting the fact that the ball diameter will increase with heating. Now the ball will once again pass through the ring. After asking the students what will happen if the ring is also heated, place both the ball and the ring in the flame. Next, place the ball in the flame of the burner and allow it to get very hot. The ball may stick slightly as it passes through, but this reinforces the fact that it is a tight fit. The demo deals with the intuitive notion that the hole in the ring will get smaller as the ring is heated.ĭirections: Pass the ball through the ring while each is at room temperature. If the ring and ball are both heated to the same temperature, the ball will pass through once again. ![]() ![]() If the ball is heated, it will expand and not be able to be passed through the ring. A metal ball and ring, each made of the same material, are made in such a way that at the same temperature, the inside diameter of the ring is just slightly larger than the diameter of the ball so that the ball will barely pass through. ![]()
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