answer with your understanding and show the point with the directior -a +20

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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12:20 O
63
+ [Template] PHY-108_A.. /
1. Is it possible to find a point where q charge will experience zero net electric force? Justify
your answer with your understanding and show the point with the direction of forces.
+20
d
2. Find whether the given field vector is: i) conservative, i) irrotational, i) both? Justify your
answer. Given, the vector is, V=yzi+ xzj+ xyk.
3. State and explain Coulomb's law? Discuss the limitations' of Coulomb's law. Also discuss
about Gauss's law in electrostatics.
4. What will be the direction of electric field when a positively charged particle is moving in the
positive x' direction? Explain
5. Find total charge contain in a spherical volume
radius 'r, electric field link up at the origin.
Show all the steps. Given E-50r N/c, r=400cm.
6. Find potential difference between 'a' and b' when 'E' is not uniform as shown in the figure
below.
1. E
Assignment 01, Sec 03, PHY 108, Spring 2021
Show your work in details and submit it by 07 April (5.50 pm)
Follow NSU dishonesty policies. You can discuss with your neers, but do not coay from other sources
7. The four particles in the specified figure form a square with an edge length of 5.00 cm and
charges of ql-5.0C, q2 -10.0 nC, g3= 10.0 nC, and g4 -50.0 nC. What is the net electric field
due to all particles at the square's center? Express electric field in components form and show
the vector graphically.
Q1
Q3
8. Can you find potential at "P"? Given Q1= 10nC, Q2=Q4=15nC, 03=-10nc, distance d= 12.0
cm. Also calculate the electrostatic potential energy on Q2 due to all surrounding charges.
Q1
03
Q2
04
9. In the given figure, what is the net electric potential at point P due to the four particles if V-0
at infinity, qe 6.00 nC, and de 3,00 m?
Transcribed Image Text:12:20 O 63 + [Template] PHY-108_A.. / 1. Is it possible to find a point where q charge will experience zero net electric force? Justify your answer with your understanding and show the point with the direction of forces. +20 d 2. Find whether the given field vector is: i) conservative, i) irrotational, i) both? Justify your answer. Given, the vector is, V=yzi+ xzj+ xyk. 3. State and explain Coulomb's law? Discuss the limitations' of Coulomb's law. Also discuss about Gauss's law in electrostatics. 4. What will be the direction of electric field when a positively charged particle is moving in the positive x' direction? Explain 5. Find total charge contain in a spherical volume radius 'r, electric field link up at the origin. Show all the steps. Given E-50r N/c, r=400cm. 6. Find potential difference between 'a' and b' when 'E' is not uniform as shown in the figure below. 1. E Assignment 01, Sec 03, PHY 108, Spring 2021 Show your work in details and submit it by 07 April (5.50 pm) Follow NSU dishonesty policies. You can discuss with your neers, but do not coay from other sources 7. The four particles in the specified figure form a square with an edge length of 5.00 cm and charges of ql-5.0C, q2 -10.0 nC, g3= 10.0 nC, and g4 -50.0 nC. What is the net electric field due to all particles at the square's center? Express electric field in components form and show the vector graphically. Q1 Q3 8. Can you find potential at "P"? Given Q1= 10nC, Q2=Q4=15nC, 03=-10nc, distance d= 12.0 cm. Also calculate the electrostatic potential energy on Q2 due to all surrounding charges. Q1 03 Q2 04 9. In the given figure, what is the net electric potential at point P due to the four particles if V-0 at infinity, qe 6.00 nC, and de 3,00 m?
12:20 D
63
+ [Template] PHY-108_A.. /
2/2
Assignment 01, Sec 03, PHY 108, Spring 2021
Show your work in details and submit it by 07 April (5.50 pm)
Follow NSU dishonesty policies. You can discuss with your geers, but do nat cogy from other sources.
7. The four particles in the specified figure form a square with an edge length of 5.00 cm and
charges of q1-5.0 C, q2 -10.0 nC, g3= 10.0 nC, and g4 -50,0 nC. What is the net electric field
due to all particles at the square's center? Express electric field in components form and show
the vector graphically.
Q2
Q4
03
8. Can you find potential at "P"? Given Q1= 10nC, Q2=Q4=15nC, Q3=-10nC, distance d= 12.0
cm. Also calculate the electrostatic potential energy on Q2 due to all surrounding charges.
Q1
03
di
Q2
04
9. In the given figure, what is the net electric potential at point P due to the four particles if V0
at infinity, gu 6.00 nC, and de 3.00 m?
+9
2d
10. How can you distinguish between a Gaussian surface and a non-Gaussian surface? Write
down expressions for electric field due to three possible Gaussian symmetries, and explain.
...
Transcribed Image Text:12:20 D 63 + [Template] PHY-108_A.. / 2/2 Assignment 01, Sec 03, PHY 108, Spring 2021 Show your work in details and submit it by 07 April (5.50 pm) Follow NSU dishonesty policies. You can discuss with your geers, but do nat cogy from other sources. 7. The four particles in the specified figure form a square with an edge length of 5.00 cm and charges of q1-5.0 C, q2 -10.0 nC, g3= 10.0 nC, and g4 -50,0 nC. What is the net electric field due to all particles at the square's center? Express electric field in components form and show the vector graphically. Q2 Q4 03 8. Can you find potential at "P"? Given Q1= 10nC, Q2=Q4=15nC, Q3=-10nC, distance d= 12.0 cm. Also calculate the electrostatic potential energy on Q2 due to all surrounding charges. Q1 03 di Q2 04 9. In the given figure, what is the net electric potential at point P due to the four particles if V0 at infinity, gu 6.00 nC, and de 3.00 m? +9 2d 10. How can you distinguish between a Gaussian surface and a non-Gaussian surface? Write down expressions for electric field due to three possible Gaussian symmetries, and explain. ...
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