Water Spinner

Rotating water has a curved surface.

When you spin a tank of water on a lazy Susan, the surface of the water forms a curve
called a *parabola*.

**A clear, thin, rectangular plastic box,**about 12 x 12 x 1 inches (30 x 30 x 2.5 cm). (You can buy one ready-made, or you can easily glue one together from pieces of plastic available at a plastics store.)**Silicone seal adhesive**to make the box waterproof.**A lazy Susan**with a diameter bigger than the length of the box. (A Rubbermaid™ lazy Susan or another inexpensive household variety will work well.)**2 wood or plastic blocks,**each about 2 x 6 x 1/2 inches (5 x 15 x 1.3 cm), to fasten the box to the lazy Susan.**Tap water.****Strong glue.**

(15 minutes or less with a ready-made box; one hour or less if you make your own box)

The seams of the box need to be watertight, so use the silicone seal adhesive to plug any leaks. Either cut a hole in the top of the box, or leave the top of the box open.

Glue the blocks to the lazy Susan alongside the box, to hold the box firmly in place.

Half-fill the box with water and rotate the lazy Susan. Notice the shape of the surface of the water.

When the waves on the rotating water surface settle down, the surface forms a curve called a *parabola*. As the box spins, the
water tends to continue moving in a straight line tangent to the circle. However, the box restrains the water and forces it to keep
moving in a circle. The water near the edge of the box goes around in one large circle in the same time that the water near the center
goes around in a small circle. That means the water near the edge travels faster than the water near the center. The faster an object
moves in a circle, the larger the force necessary to hold it in the circle. This force is called the *centripetal force*.

The surface of a body of water in equilibrium is always perpendicular to the net forces on the water. The diagram below shows the forces on the water in relation to the tilt or slope of the water surface.

The diagram shows that the tilt or slope of the water surface indicates the size of the force holding the water in its circular path. The flat bottom of the parabola shows that little force is needed to hold the water there in its circular path, while the steep outer regions show that a large force is required in those areas.

You can prove to yourself that the water forms a parabola. A parabola has the equation *y = x2*. Draw a parabola on a piece of
graph paper and tape the paper to one side of your rectangular box so that you can look through the box and see the paper. Then rotate
the box until you find the speed at which the bottom of the parabola you drew matches up with the lowest part of the water surface. The
water surface should exactly match the curve of the parabola drawing at every other point.

Make a raft small enough to float inside your rotating box. A small, flat piece of wood with a toothpick mast works well. Place the raft on the water surface near the edge of the box, and then spin the box. The raft will stay in place even when it is on the slope of a hill of water. Its mast will always be perpendicular to the water.

Related Snacks include Vortex and Spinning Blackboard.