You made it to the 2nd clue

You made it to the 2nd clue!!! Keep on reading...

Even a slight change in the bounciness of a baseball can have a large effect on the game. A few years ago there was an unprecedented rash of home runs in the major leagues. That year's crop of baseballs bounced off the bats with unusual liveliness, turning what should have been long outs into home runs. Everyone suspected that these baseballs had been particularly tightly wound, producing so-called "rabbit" balls. (One disgruntled pitcher said that you could hold one up to your ear and hear its little heart beating a mile a minute.) If such a seemingly minor change could have such a dramatic effect, it's not surprising that the bounciness of the tennis ball completely transformed my childhood baseball game.

Dropping Balls

To begin your own investigation of the bounciness of balls, you'll need several different kinds of balls to compare. I'd suggest a golf ball, a tennis ball, a baseball, and a basketball for starters. Hold a ball at a measured height above a solid surface-- one meter is a good height. Now drop the ball and notice how high it bounces. Be sure that you measure the starting height and the height of the bounce from the same point on the ball--you can measure from the top, the bottom, or the center of the ball, but be consistent. The table below shows a variety of balls and how high they bounced when dropped from one meter above the ground.

squash ball	baseball	golf ball
tennis ball	basketball	handball
superball	steel ball on steel plate

You can see why all these balls bounce by watching a ball that bounces in slow motion--a water balloon. You'll need a few balloons to get started--you might as well plan on breaking some. You'll break fewer if you don't fill the balloon too full of water and if you use a double balloon: lubricate the outside of one balloon with cooking oil, push it into a second balloon, then fill the inner one with water.

Drop your double water balloon onto a smooth surface and watch what happens. Notice that the bottom of the balloon comes to rest when the balloon hits the floor, but the top keeps moving down. During the balloon's collision with the floor, its rubber stretches as the balloon deforms from its initial spherical shape. When the rubber elastically snaps back toward its original dimensions, the balloon is pushed into the air. Click on the ball on the left that bounces the highest on the first bounce. Without buoyancy, how would ice float. What would happen to root beer floats? How big is a turtle if it can swallow flies. If you are still reading this, you missed the clue!

This text is from the excellent S.F. Exploritorium site Please don't click on this link if you are doing the treasure hunt, or you may not be returning anytime soon!