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Static Electricity Chapter 20. Electric Force Section 20.1.

Published byPaul Woods Modified over 9 years ago

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Presentation on theme: "Static Electricity Chapter 20. Electric Force Section 20.1."— Presentation transcript:

1 Static Electricity Chapter 20

2 Electric Force Section 20.1

3 Electrostatics Electric Statics that can be collected and held in one place.

4 Charged Objects Object that exhibits electric interaction after rubbing is said to be charged ◦ Like charges: Repel each other ◦ Opposite charges: Attract each other ◦ Types of charge: Matter contains both charges

5 A Microscopic View of Charge All objects contain light, negatively charged particles ◦ Neutral object: positive charge of nucleus equals the negative charge of surrounding electrons ◦ Separation of charge: Occurs when two objects are rubbed together

6 Conductors and Insulators Electric Conductor ◦ Material that allows charges to move easily ◦ Metals (ie: copper, iron, silver, gold) Electric Insulator ◦ Material through which charge will not move easily ◦ Glass, dry wood, plastics, rubber, cloth, and dry air

7 Electric Force Section 20.2

8 Forces on Charged Bodies There are two kinds of charges: ◦ Positive and Negative Charges exert forces on other charges at a distance. The force is stronger when the charges are closer Like charges repel; opposite charges attract.

9 Electroscope Device used to determine charge. ◦ Metal knob connected by a metal stem to two thin, lightweight pieces of metal foil.

10 Charging by Conduction Charging a neutral body by touching it with a charged body ◦ Leaves spread apart it electroscope is positive

11 Separation of Charge on Neutral Objects Neutral object will have charges separate. ◦ Neutral object will be attracted to the charged object.

12 Charging by Induction Charging an object without touching ◦ Single object can be charged by induction through grounding

13 Coulomb’s Law Force depends on distance ◦ F = 1/r 2 Force depends on charge ◦ F= q A q B Coulomb’s Law ◦ F= q A q B / r 2 Elementary Charge ◦ Magnitude on electron: 1.60 X 10 -19 C ◦ 1 C = 6.24 X 10 18 electrons

14 Coulomb’s Law Force in Newtons (N) Coulomb’s constant: 9.0 X 10 9 Nm 2 /C 2 Distance between Charges In Meters (m) Charge in Coulombs (C) of object 1 Charge in Coulombs (C) of object 2

15 The End!

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