College Physics
11th Edition
ISBN: 9781305952300
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Transcribed Image Text:e Chapter 23 Homework
Question 1 of 10
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-/1
UausSiaI
surface
An electric field given by Ē = aî – b(y² + c)ĵ pierces the Gaussian
cube of the figure above, where the cube has side length d.
NOTE: Express your answers in terms of the variables given.
(a) What is the electric flux through the top face?
Ptop
(b) What is the electric flux through the bottom face?
Pbottom
(c) What is the electric flux through the left face?
Pief =
II
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- 3 Determine the electric flux through each closed surface whose cross-section is shown below. (For each loop shown, imagine extending the loop perpendicular to the page, providing the side surface, and closing the top and bottom with a flat surface in the shape of the loop, to provide a closed cylindrical surface in three dimensions.) Hint -29 -2q 39 +q 3q S₁ S3 S2 Figure Description d. Flux through S4 is e. Flux through S, is f. Flux through Se is a. Flux through S₁ is (Give your answer in terms of q and physical constants ke or eo. Use underscore (_) for subscripts and spell out Greek letters.) b. Flux through S₂ is c. Flux through S3 is Submit Question C $ E R % 55 5 G Search or type URL T SA S6 6 Y & 7 U * 00 8 ( 1 S MyOpenMath 0arrow_forwardpart 3 of 5 The electric field at location B has the value (-8000 N/C, 8000 N/C, 0). The unit vector in the direction of EĒ can be written in the form: Ê = (Êx, Êy, Êz) where we understand Ê₂ = 0. What is Ê? part 4 of 5 What is Ey? Your response... Previous Responses X #1. -8000 PALETTE Your response... Previous Responses X #1.8000 PALETTEarrow_forwardnumber 4 onlyarrow_forward
- B A flat sheet of paper of area 0.250 m² is oriented so that the normal to the sheet is at an angle of 70° to a uniform electric field of magnitude 10 N/C. For related problemsolving tips and strategies, you may want to view a Video Tutor Solution of Electric flux through a disk. Part A Find the magnitude of the electric flux through the sheet. Express your answer in newton meters squared per coulomb. $= Submit Part B yes no VE ΑΣΦ 4 → Does the answer to part A depend on the shape of the sheet? Submit Request Answer Request Answer ? Pearson N-m²/Carrow_forward5- Find the area A Area A A surface A is place in a uniform electric field E. The angle is 0 = 25° Perpendicular to area (a) Suppose that we have a device to generate the electric field and that we can set different values of its magnitude. We also measure the electric flux. Conducting these measurements we find E (N/C) $ (Nm2/C) 0.823 1.265 1. 1.5 2.5 3.5 4. 4.5 1.374 2.066 2.521 2.414 3.234 3.414 3.566 Make a plot of Ø vs _E 19. What is the value of the slope? (m2) 20. What is the value of the area A? (m2) ext Predictions: On Pending Blocked Add Friend 3.arrow_forward193 LED, Fall 2032/W In the figure below, each charged particle is located at one of the four vertices of a square with side length = a. In the figure, A3, 8-2, and C-7, and a > 0. (a) What is the expression for the magnitude of the electric field in the upper right corner of the square (at the location of q)? (Use the following as necessary: a, a, and kg.) 6.24ka En Bq F- x Give the direction angle (in degrees counterclockwise from the +x-axis) of the electric field at this location. 45 X(counterclockwise from the +x-axis) (b) Determine the expression for the total electric force exerted on the charge q. (Enter the magnitude. Use the following as necessary: q, a, and ) 6.24k X Give the direction angle (in degrees counterclockwise from the +-axis) of the electric force on q. 45 X (counterclockwise from the +x-axis) (c) What If? How would the answers to parts (a) and (b) change if each of the four charges were negative with the same magnitude? Select all that apply The force would be…arrow_forward
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