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 Effect static electricity charging  Protons (p + ) › in nucleus (center) of an atom › positively charged  Neutrons (n 0 ) › in nucleus (center) of.

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Presentation on theme: " Effect static electricity charging  Protons (p + ) › in nucleus (center) of an atom › positively charged  Neutrons (n 0 ) › in nucleus (center) of."— Presentation transcript:

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2  Effect static electricity charging  Protons (p + ) › in nucleus (center) of an atom › positively charged  Neutrons (n 0 ) › in nucleus (center) of an atom › neutral (no effect on charge)  Electrons (e - ) › move freely outside of the atom › negatively charged

3  Electrical Charge – a force that one charge exerts on another  An amount of static electricity can ignite volatile substances (gasoline)  A large difference in the charges in the air can trigger a lightning.  Opposite charges attract each other › protons are attracted to electrons because they have different electric charges  Like charges repel › one electron would repel another electron because they have the same electric charge.

4  Remember, an electron (e-) is free to move but a proton is “locked in” to the nucleus of an atom.  This means that when charging occurs, the electrons either move from one physical body to another, OR are rearranged within an existing body. DON’T FORGET THIS!

5  Electrons are opportunistic migrants › for electrons to make a move from the atoms of one material to the atoms of another material, there must be  an energy source  a motive  a low-resistance pathway

6  Charged objects (ions) have an unequal number of protons and electrons  Charge is the difference between number of electrons and protons  Coulomb (C) › The charge on a single electron is -1.6 x 10 -19 C › The charge on a single proton is +1.6 x 10 -19 C

7  The amount of charge carried by a lightning bolt is estimated at 10 C. What quantity of excess electrons is carried by the lightning bolt? › Answer: 6.25 x 10 19 electrons

8  When one body loses an electron, the other body will gain that electron so that there is a net charge on each body  no electrons are destroyed in the process.

9  The farther apart opposite charges are, the weaker the attraction force between them.  The closer the charges get, the stronger the force becomes. › F = force › k c = Coulomb’s constant (9x10 9 Nm 2 /C 2 ) › q 1 = charge of particle 1 › q 2 = charge of particle 2 › r = distance

10  One charge of 2.0 C is 1.5 m away from a – 3.0 C charge. Determine the force they exert on each other.  The negative sign just means that one charge is positive, the other is negative, so there is an attractive force between them.

11  Two balloons are charged with an identical quantity and type of charge of -6.25x10 -9 C. They are held apart at a separation distance of.617 m. Determine the magnitude of the electrical force of repulsion between them.

12  Two balloons with charges of +3.37 μC and -8.21 μC attract each other with a force of 0.0626 Newton. Determine the separation distance between the two balloons.

13  Textbook problems › Page 689 #21-24

14  Any material that does not conduct electricity  store electrons on their surface.  Ex: Plastics, dried wood, glass, fabric, and other non-metals  Metals are CONDUCTORS, and do not store charges (wires in your home,etc)

15  Friction  Conduction  Induction

16  When 2 uncharged objects come into contact, electrons are stripped from one object onto the other and they receive opposite charges. Usually happens when objects rub together.

17  When a charged object touches an uncharged object, some of the charge moves so that both objects have the same charges. The new charge will be weaker than the original one.

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19  When a charged object approaches, but does not touch an uncharged object, a migration of electrons creates an “apparent” charge on the object even though the net charge remains zero

20 Charging by Induction: Charged object drives off like charges, leaves charged object with opposite charge

21  Field Lines -Invisible lines surrounding a charge manifesting a force.  Number of lines per area represents field strength  As lines diverge, field strength diminishes  More charges means greater number of field lines

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23  Which region experiences greater electric field strength? › region A  Where is that region near at? › near the charge

24  Two point charges of equal magnitudes and opposite signs.  Near the charge the field lines are radial  All lines that emerge will terminate  Emerge on positive charge and terminate on negative.

25  Field lines do not cross  Repulsion  Like Charges  For Negative charges, reverse the direction of the field lines.

26  Given a positive charge that is 2X that of negative, how will the lines terminate? › Only half the lines that emanate from the positive charge will terminate in negative charge › Rest of lines terminate at infinity.

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