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Electric Charge

negative. --. --. positive. + + + +. Electric Charge. When a rubber rod is rubbed against fur, electrons are removed from the fur and deposited on the rod. Electrons move from fur to the rubber rod.

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Electric Charge

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  1. negative -- -- positive + + + + Electric Charge When a rubber rod is rubbed against fur, electrons are removed from the fur and deposited on the rod. Electrons move from fur to the rubber rod. The rod is said to be negatively charged because of an excess of electrons. The fur is said to be positively charged because of a deficiency of electrons.

  2. positive glass + + + + negative - - - - silk Glass and Silk When a glass rod is rubbed against silk, electrons are removed from the glass and deposited on the silk. Electrons move from glass to the silk cloth. The glass is said to be positivelycharged because of a deficiency of electrons. The silk is said to be negatively charged because of a excess of electrons.

  3. Pith-ball Electroscope Gold-leaf Electroscope The Electroscope Laboratory devices used to study the existence of two kinds of electric charge.

  4. Neg Neg Neg Pos Pos Pos The First Law of Electrostatics Like charges repel; unlike charges attract.

  5. The Quantity of Charge The quantity of charge(q) can be defined in terms of the number of electrons, but the Coulomb (C) is a better unit for later work. A temporary definition might be as given below: The Coulomb: 1 C = 6.25 x 1018 electrons Which means that the charge on a single electron is: 1 electron: e- = -1.6 x 10-19 C

  6. Units of Charge The coulomb (selected for use with electric currents) is actually a very large unit for static electricity. Thus, we often encounter a need to use the metric prefixes. 1 mC = 1 x 10-6 C 1 nC = 1 x 10-9 C 1 pC = 1 x 10-12 C

  7. F - + q q’ r F F q q’ - - Coulomb’s Law The force of attraction or repulsion between two point charges is directly proportional to the product of the two charges and inversely proportional to the square of the distance between them.

  8. Calculating Electric Force The proportionality constant k for Coulomb’s law depends on the choice of units for charge. When the charge q is in coulombs, the distance r is in meters and the force F is in newtons, we have:

  9. CONCLUSION: Chapter 18Electric Force

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