PHY303; Solutions%202 - homework 02 FAUSAK, TAYLOR Due: Jan...

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Unformatted text preview: homework 02 FAUSAK, TAYLOR Due: Jan 28 2008, 4:00 am 1 Question 1, chap 23, sect 2. part 1 of 3 10 points A uniformly charged circular arc AB of ra- dius R is shown in the figure. It covers a quarter of a circle and it is located in the sec- ond quadrant. The total charge on the arc is Q > 0. The value of the Coloumb constant is 8 . 98755 10 9 N m 2 / C 2 . x y + + + + + + + + + R x y I II III IV B A O s R What is the direction of the electric field vector vector E at the origin, due to the charge distribution? 1. along the negative x-axis 2. along the positive y-axis 3. in quadrant III 4. along the positive x-axis 5. along the negative y-axis 6. in quadrant I 7. in quadrant IV correct 8. in quadrant II Explanation: The electric field for a positive charge is directed away from it. In this case, the electric field generated by each q will be directed into quadrant IV, so the total electric field will be in the same quadrant. Question 2, chap 23, sect 2. part 2 of 3 10 points Find E x , the x-component of the electric field at the origin due to the full arc length for the case, where Q = 0 . 8 C and R = 0 . 26 m. Correct answer: 67711 . 9 N / C (tolerance 1 %). Explanation: Let : Q = 0 . 8 C = 8 10 7 C , R = 0 . 26 m , and k e = 8 . 98755 10 9 N m 2 / C 2 . E x can be found by integrating the contri- butions of all the q s in the arc. Using q = parenleftBig 2 parenrightBig and taking the x-component, then adding the force component from each charge q at angle , we have E x = integraldisplay / 2 k e Q R 2 2 cos d = 2 k e Q R 2 = 2 (8 . 98755 10 9 N m 2 / C 2 ) (0 . 26 m) 2 (8 10 7 C) = 67711 . 9 N / C . Question 3, chap 23, sect 2. part 3 of 3 10 points If at O we have E x = C , then what is the magnitude of the full force F (not just the x-component) on an electron at this point? 1. F = C 2 e 2. F = 2 C 3 e 3. F = C e 2 4. F = C 3 e 5. F = e C 6. F = 3 e C 2 homework 02 FAUSAK, TAYLOR Due: Jan 28 2008, 4:00 am 2 7. F = 2 e C 8. F = 2 e C correct 9. F = 3 e C 10. F = 4 e C Explanation: From the symmetry of the charge distri- bution, it can be seen that E y = E x = C , so E x E y E E = radicalBig E 2 x + E 2 y = 2 C . The force on an electron is then F = e E = 2 e C . Question 4, chap 23, sect 2. part 1 of 4 10 points Consider a disk of radius 4 . 3 cm, having a uniformly distributed charge of +3 . 6 C. The value of the Coulomb constant is 8 . 98755 10 9 N m 2 / C 2 . Compute the magnitude of the electric field at a point on the axis and 3 . 8 mm from the center. Correct answer: 3 . 19167 10 7 N / C (tolerance 1 %)....
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This note was uploaded on 03/30/2010 for the course CH 369 taught by Professor Kbrowning during the Spring '07 term at University of Texas at Austin.

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PHY303; Solutions%202 - homework 02 FAUSAK, TAYLOR Due: Jan...

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