aim: how can we explain electrostatic force? +6e -2e do now: what is the net charge of the system...
TRANSCRIPT
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Aim: How can we explain Electrostatic Force?
+6e -2e
Do Now:What is the net charge of the system when
they come into contact?
+6e -2e
net charge of +4e
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Conservation of Charge
• If 2 or more objects come into contact with one another the net charge is distributed evenly among the objects
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What will the charge be after separation?
= net charge
# of objects
= +4e = +2e
2
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Example
• What is the net charge when the spheres come into contact?
-6e• What is the charge on each sphere after
separation?- 2e
+4e -8e -2e
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Units of Charge • Coulombs (C)
Charles-Augustin de Coulomb 1736-1806
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• 1 elementary charge:
(1e = 1.6 x 10-19 C)• 1 Coulomb =
6.25 x 1018 elementary charges
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Example• How many
Coulombs in 5 electrons?
• How many protons make up +10 Coulombs?
= 8 x 10-19 C
or
= 8 x 10-19 C
= 6.25 x 1019 C
or
= 6.25 x 1019 C
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Coulomb’s Law• The electrical force of attraction or repulsions between 2 charged objects
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• k = electrostatic constant 8.99 x 109 N•m2/C2
q1 = charge on 1st object (C)
• q2 = charge on 2nd object (C)
• r = distance between objects
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Graph of Coulomb’s Law
Distance
Force
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Examples• q1 = +2.0C, q2= +2.0C, r = 5m.
• Find F
F = kq1q2
r2
F = (8.99x109 Nm2/C2)(+2.0C)(+2.0C)
(5.0 m)2
F = 1.4 x 109 N
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• q1 = -10.0C, q2= -10.0C, r = 2.0m.
• Find F
F = kq1q2
r2
F = (8.99x109 Nm2/C2)(-10.0C)(-10.0C)
(2.0 m)2
F = 2.2 x 1011 N
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• Find F between electron and proton, separated by 1.5 x 10-10 m
F = kq1q2
r2
F = (8.99x109 Nm2/C2)(-1.6x10-19C)(1.6x10-19C)
(1.5x10-10 m)2
F = -1.0 x 10-8 N
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• If F is positive, the force is
repulsive/attractive
• If F is negative, the force is
repulsive/attractive
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Original Force
Changed Variable
New Force
F double q1 2F
F double q1 & q2
4F
F double r ¼ F
F triple r 1/9 F
F half q1 & q2 ¼ F
F half r 4 F
F third r 9 F