chapter 21: electric potential - physics · pdf filedr. mangala singh, 1p22/1p92brock...
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![Page 1: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/1.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
Chapter 21: Electric potential
Electric Potential
Acknowledgements: Several Images and excerpts are taken from College Physics: A strategic approach, Pearson Education Inc
![Page 2: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/2.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
![Page 3: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/3.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
![Page 4: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/4.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
What is Potential Energy?
Think! a object of mass m is lifted against the gravitational force – it will have a potential energy
mmg
h
To lift this object at height h, we need to work against the gravitational force (= mg),
Where g is gravitational constant = 9.8 m/s2
At height h, it gains the extra energy, which is called potential energy
Potential Energy change = work done
= Force x displacement
= mg x h
What about charged object in E-fields?
![Page 5: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/5.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
What is Electric Potential Energy (Uelec)?
Just like gravitational force,
electrostatic force is conservative
To see how the potential energy of
of a charge changes with position,
think that we placed a positive
charge qtest, in uniform electric field
created by a parallel plate capacitor
++++++++++++++++
----------------------------
qtest
�It will accelerate towards negative plate
� To bring the qtest upwards, we need to apply external force (Fext)
�How much? Equivalent to the electrostatic force exerted on the qtest
due to the electric field E
F electrostatic= E qtest
�Work done = Force x displacement d
This work done by external force = the increase in electric potential energy (Uelec) of qtest = Eqtestd
![Page 6: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/6.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
Electric Potential Energy continued…
�Gravitational potential energy always increases, when you lift an object
� Electrostatic potential energy of charge particle depends on the direction of electric field
�Electric potential energy of a charge particle will increase when we move it against the direction that the electrostatic force would normally tend to move it
++++++++++++++++
----------------------------
qtest
d
![Page 7: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/7.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
What is Electric Potential (V)?
�Electric potential, also called voltage, is related to Uelec in the same way, as electric field E is related to the electrostatic force
� The change in electric potential (∆V) is defined as
++++++++++++++++
----------------------------
qtest
d
elec
test
UV
q∆ =
Units of electric potential = J/C (also called volt, V)
1 J/C = 1 V
1. Electric potential depends on the source charges that create E-field and not on the test charge
2. It is a scalar
3. It tells how much a charge will gain energy when it moves from a point 1 and 2
![Page 8: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/8.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
Example ProblemA uniform electric field of 1000 N/C is established between a parallel plate capacitor. A particle with charge of +0.005C is moved 3 cm from the negatively charged plate to the top plate.
1. Change in electric potential energy Uelec? U elec = Eqtestd[ Given qtest = 0.005C; d= 3cm= 0.03m, E= 1000N/C]Uelec= (1000N/C)(0.005C)(0.03m) = 0.15J
2. Change in electric potential (∆V) = Uelec/qtest
= 0.15J/0.005C = 30V
![Page 9: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/9.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
![Page 10: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/10.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
Uelec associated with point charges
Test charge qtest
test sourceelec
q QU K
r=
Source charge Qsource
Uelec energy needed to bring qtest & Qsources together from infinity
![Page 11: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/11.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
Electric Potential continued…
elec source
test
U QV K
q r= =
![Page 12: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/12.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
Electric potential and potential energy due to multiple point charges
i j
elec
ij
i
i
q qU K
r
qV K
r
= ∑
= ∑
Multiple charges: 1. Apply superposition rule
2. Calculate potential energy for every pair of the charges
3. Sum algebraically
![Page 13: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/13.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
Problem: Two charges q1 and q2 lie in x-axis (see Fig)
(a) What is total electric potential at P
+ -
(3,0)m
P(0,4) m
5µc
-2µc
1 2
1 2
( )P
q qV K
r r= +
Vp= (9x106Nm2C-2)[5x10-6C/4m –
2x10-6C/5m]
= 7.65 x 103 V
(b) How much work will be required to bring a 3rd charge at point P?
= q3Vp
Say q3 = 3µC; Work = 2.3 x10-2 J
![Page 14: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/14.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
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Dr. Mangala Singh, 1P22/1P92Brock University
Potential of a Parallel-Plate Capacitor
-
-
-
-
-
-
-
+
+
+
+
+
+
+
+
elec
elec test
test
UV U Vq
q= ⇒ =
Uele(x, q)
q<0
q>0V(x)
V depends on the reference point
Uelec also depends on the sign of the test charge
![Page 16: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/16.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
Find electric potential (V) of the capacitor at point x?
elecU Workdone qEx= =
capacitor
o
QE
Aε=
o
QV x
Aε⇒ =
c
xV V
d= ∆
Potential difference (∆V) between two plates separated by d ?
c
ccapacitor
V V V Ed
VE
d
+ −∆ = − =
∆⇒ =
--------(1)
--------(2)
--------(3)
![Page 17: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/17.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
The Potential Inside a Parallel-Plate Capacitor
Slide 21-25
elec
0
U QV Ex x
q A∈= = =
![Page 18: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/18.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
ApplicationEnergy gained by a charged particle going through a potential difference
-
-
-
-
-
-
-
+
+
+
+
+
+
+
+
Kinetic energy (K.E.) of a particle of mass m and velocity v = ½mv2
Find initial kinetic energy = ½ mvi2
Final kinetic energy = ½ mvf2
Potential energy change = q(Vf-Vi)
Since energy is conserved
Initial K.E. + initial Potential Energy
= Final K.E. + Potential energy
½ mvi2 +qVi = ½ mvf
2+ qVf
![Page 19: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/19.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
Charged Particle Moving Through a Potential
Difference
![Page 20: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/20.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
Brookhaven National lab
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Dr. Mangala Singh, 1P22/1P92Brock University
Problem
A parallel-plate capacitor is held at a potential difference of 250 V. A proton is fired toward a small hole in the negative plate with a speed of 3.0 x 105 m/s. What is its speed when it emerges through the hole in the positive plate? (Hint: The electric potential outside of a parallel-plate capacitor is zero).
![Page 22: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/22.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
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Dr. Mangala Singh, 1P22/1P92Brock University
Electric Potential of a Point Charge
![Page 24: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/24.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
Electric Potential: Charged Sphere
Outside of a sphere of charge Q the potential has the same form as
for a point charge Q:
If the sphere has radius R and the potential at its surface is V0, then the potential a distance r from its center can also be written
0
RV V
r=
![Page 25: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/25.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
Relationship between Electric Potential and Electric Field
![Page 26: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/26.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
Electric Potential and Electric Field for Three Important Cases
Slide 21-32
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Dr. Mangala Singh, 1P22/1P92Brock University
A Conductor in Electrostatic Equilibrium
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Dr. Mangala Singh, 1P22/1P92Brock University
A Topographic Map
Slide 21-21
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Dr. Mangala Singh, 1P22/1P92Brock University
Summary
![Page 30: Chapter 21: Electric potential - Physics · PDF fileDr. Mangala Singh, 1P22/1P92Brock University Chapter 21: Electric potential Electric Potential Acknowledgements: Several Images](https://reader033.vdocuments.us/reader033/viewer/2022051405/5a795b317f8b9a0b118d669c/html5/thumbnails/30.jpg)
Dr. Mangala Singh, 1P22/1P92Brock University
Summary