hukum coulomb - iwan78's space · pdf file11/3/2010 · hukum coulomb •...
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Hukum Coulomb
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Keseimbangan Torsi Coulomb Perputaran ini untuk mencocokan dan mengukur torsi dalam serat dan sekaligus gaya yang menahan muatan
Skala dipergunakan untuk membaca besarnya pemisahan muatan
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Percobaan Coulomb
F
r
Garis Fr-2
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Hukum Coulomb• Penentuan Coulomb
– Gaya tarik menarik jika muatan berbeda tanda– Gaya sebanding dengan perkalian muatan q1 dan q2
sepanjang garis lurus yang menghubungkannya– Gaya berbanding terbalik dengan kuadrat jarak
• I.e.– |F12| |Q1| |Q2| / r12
2
– atau– |F12|= k |Q1| |Q2| / r12
2
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Hukum Coulomb• Satuan untuk konstanta ditentukan dari hukum
Coulomb• Coulomb telah menentukan konstanta ini dalam satuan
SI – k = 8.987.5x109 Nm2C-2
• k secara normal dinyatakan sebagai k = 1/40
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Bentuk vektor hukum Coulomb
+
+
Q1
Q2r12
12r̂
21F
12F
12F
+
21F
-
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Kuis
• A: FAB=-3FBA
• B: FAB=-FBA
• C: 3FAB=-FBA
• D: FAB=12FBA
Objek A bermuatan +2 C dan Objek B bermuatan +6 C. Pernyataan manakah yang benar ?
B+6 C
A+2 C
FAB?
FBA?
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Contoh Soal ( Penerapan Vektor dalam Hk. Coulomb )
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Gaya dari banyak muatan
Superposisi
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Gaya dari banyak muatan
+
41F
31F
21F
Q1
-Q2
+Q4
- Q3
4131211 FFFF
Gaya pada muatan adalah jumlah vektor gaya dari semua muatan
Prinsip superposisi
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The Electric Field
Coulomb's Law (demonstrated in 1785) shows that charged particles exert forces on each other over great distances.
How does a charged particle "know" another one is “there?”
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Faraday, beginning in the 1830's, was the leader in developing the idea of the electric field. Here's the idea:
A charged particle emanates a "field" into all space.
Another charged particle senses the field, and “knows” that the first one is there.
+
+-
like charges
repel
unlike charges attract
F12
F21
F31
F13
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We define the electric field by the force it exerts on a test charge q0:
0
0
FE = q
This is your second starting equation. By convention the direction of the electric field is the direction of the force exerted on a POSITIVE test charge. The absence of absolute value signs around q0 means you must include the sign of q0 in your work.
If the test charge is "too big" it perturbs the electric field, so the “correct” definition is
0
0
q 00
FE = lim q
Any time you know the electric field, you can use this equation to calculate the force on a charged particle in that electric field.
You won’t be required to use this version of the equation.
F = qE
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The units of electric field are Newtons/Coulomb.
0
0
F NE = = q C
Later you will learn that the units of electric field can also be expressed as volts/meter:
N VE = = C m
The electric field exists independent of whether there is a charged particle around to “feel” it.
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+Remember: the electric field direction is the direction a + charge would feel a force.
A + charge would be repelled by another + charge.
Therefore the direction of the electric field is away from positive (and towards negative).
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The Electric FieldDue to a Point Charge
Coulomb's law says
... which tells us the electric field due to a point charge q is
1 22
12
q qF =k ,12 r
This is your third starting equation.
q 2
qE =k , away from +
r
…or just…2
qE=k
r
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The equation for the electric field of a point charge then becomes:
2
q ˆE=k rr
We define as a unit vector from the source point to the field point:r̂
+source point
field point
r̂
You may start with either equation for the electric field (this one or the one on the previous slide). But don’t use this one unless you REALLY know what you are doing!
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Motion of a Charged Particlein a Uniform Electric Field
A charged particle in an electric field experiences a force, and if it is free to move, an acceleration.
- - - - - - - - - - - - -
+ + + + + + + + + + + + +
-F
If the only force is due to the electric field, then
F ma qE.
If E is constant, then a is constant, and you can use the equations of kinematics.
E
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Example: an electron moving with velocity v0 in the positive x direction enters a region of uniform electric field that makes a right angle with the electron’s initial velocity. Express the position and velocity of the electron as a function of time.
- - - - - - - - - - - - -
+ + + + + + + + + + + + +
Ex
y
-
v0
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The Electric FieldDue to a Collection of Point Charges
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The electric field due to a small "chunk" q of charge is
20
1 qE = r4πε r
The electric field due to collection of "chunks" of charge is
iii 2
i i0 i
1 qE = E = r4πε r
unit vector from q to wherever you want to calculate E
unit vector from qi to wherever you want to calculate E
As qdq0, the sum becomes an integral.
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Contoh soal: