Culver
e-SMARTkids
Culver
e-SMARTkids

Charge It! Activity

Charge It! Activity

Background

Illustration of child holding balloon against head demonstrating static electricityStatic electricity is the buildup of electric charge on an object. That charge may be positive or negative, depending on whether the object loses or gains electrons. It may result from the transfer of electrons from one object to another or from one location to another within the same object.

One way electrons get transferred is through friction. For example, when you rub a balloon against your head, electrons in the atoms that make up your hair rub off onto the balloon. This loss of electrons leaves your hair with an overall positive charge. The gain of electrons leaves the balloon with an overall negative charge.

Charged objects interact in very specific ways. In this activity, you are going to build up electric charges on balloons and investigate the forces that they exert on other objects.

Materials

  • 2 balloons
  • scrap of paper

Steps

  1. Blow up a balloon and tie it off. Rub the balloon against your clean, dry hair for several seconds. Then hold the balloon near but not touching your head. What happens to your hair?
  2. The balloon is negatively charged, and your hair is positively charged. What can you conclude about unlike charges?
  3. Blow up a second balloon and tie it off. Rub both balloons against your hair. Place one balloon on the table. Slowly move the other balloon near it. What happens? What charge do the balloons have?
  4. Are there any strands of hair clinging to the balloons? Pull off two and hold the strands close together. What happens? What charge do the strands of hair have?
  5. What can you conclude about like charges?
  6. Finally, tear up some paper into tiny bits and sprinkle them on the table. Rub one balloon against your hair. Place the balloon near (but not touching) the bits of paper. What happens?
  7. The balloon is negatively charged, but the bits of paper are neutral (have no charge). What must have happened to the electrons in the atoms that make up each bit of paper?