Titanium is a versatile metal, being both very light and exceptionally strong. It resists corrosion, is nonmagnetic and exists in large quantities in the Earth's crust. These properties make it ideal for use in things as diverse as replacement hip joints and aircraft engines. The structure of the titanium atom is complex, with 22 protons, 26 neutrons and 22 electrons. Creating a Bohr model of the atom is the best approach because, although it simplifies the nature of electrons, it does make the atomic structure easier to visualize.
Instructions
1. Glue 22 red beads and 26 green beads to the surface of the table tennis ball, covering it completely, to form the central part of the atom, the nucleus. Mix the colors to form a random pattern, overlapping the beads if necessary. Allow the glue to dry.
2. Use a drop of quick-setting glue to attach one end of the string to the ball. Hold the ball, suspended by the string, to make sure it hangs vertically under the string without looking lopsided. If it does not hang well, remove the string and try again.
3. Glue two black beads to the 6-inch wire hoop. Glue eight black beads to the 8-inch hoop, 10 black beads to the 10-inch hoop and two black beads to the 12-inch hoop. Space the beads out around the hoops. Allow the glue to dry.
4. Tie the 6-inch hoop to the string with a simple knot so the nucleus of red and green beads hangs in the center of the hoop. One inch farther up the string, attach the 8-inch hoop so the previous hoop hangs in its center. Repeat at one inch intervals with the 10-inch and 12-inch hoops to form a series of concentric circles with black "electron" beads circling the nucleus ball.
5. Adjust the spacing of the rings as necessary and then fix them in place with a drop of glue over each knot in the string. Hang the model from the end of the string.