College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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- The figure shows equipotential lines in a region of space. The equipotential lines are spaced by the same difference in potential, and several of the potentials are given.(Figure 1) Part A The direction of the electric field at point b is closest to which direction? O Right O Up O Left O Down Submit Request Answer Provide Feedback Figure < 1 of 1 y (m) 1.0 -200 V 0.5 100 V OV -0,5 300 V -1.0- -1.0 x (m) 1.0 -0.5 0,5arrow_forward7°F unny Exam in Progress #3 LE An air-filled capacitor (C = 300.0 pF) consists of two circular plates of radius 0.30 mm. How far apart are the plates (in µm)? O 0.0042 O 0.00094 O 0.00047 O 0.0083 Q Search $ 4 10 16 F % T Il app.honorlock.com is sharing your screen. Stop sharing Hide 99+ G hp a 5 p5arrow_forward4. The figure shows the equipotential lines (lines where the voltage is constant) in a region of space. C. a. A proton is released from rest at point A. Which way (left/right/top/bottom) will the charge move? 506) b. A electron is released from rest at point A. Which way will the charge move? What is the direction of the electric field in this region of space? 20V 30V 40V 50V 60V 70Varrow_forward
- Two large equipotential surfaces are flat and parallel, and they are separated by a relatively small distance compared to their size. One surface is at 25.0 V and the other is at 33.0 V. The surfaces are 1.25 cm apart. Assuming the electric field is uniform between the surfaces, what is the magnitude of the electric field midway between them? O 29.0 V/m O 33.0 V/m O 6.40 × 10² V/m O 1.00 × 103 V/m 25.0 V/marrow_forwardEP-2 Equipotential lines for part of a charge distribution are shown to the right. The grid on which the lines are shown measures 1cm by 1cm. 1cm 1cm a) Circle the region on the grid where the electric field strength is greatest and calculate the strength of the field in this region. 2V \4V 6V 8V 10V b) Circle the region on the grid where the electric field strength is least and calculate the strength of the field in this region. c) Sketch 8 electric field lines starting at the center of the 2V circle. Be sure to put an arrowhead on each line. What is the sign of the charge at the center of the 2V circle?arrow_forwardI am stuck on this physics homework, any help would be great!arrow_forward
- Please solvearrow_forward3. A set of equipotential lines is shown below. а. Where is the electric field stronger, point A or point B? Explain using physical reasoning. b. If a proton is fired from point B toward point C, will its speed at C be greater than, less than, or the same as B? Explain using physical reasoning. A. 50И 40V 30V 20V 10V •Barrow_forwardThe figure below shows several equipotential lines each labeled by its potential in volts. The distance between the lines of the square grid represents 3.00 cm. C Why? a 4 8 6 (a) Is the magnitude of the field bigger at A or at B? OEA EB (b) What is E at B? N/C --Direction-- A B (c) Represent what the field looks like by drawing at least eight field lines. Choose File no file selectedarrow_forward
- 8- Equipotential surfaces are to be drawn 130 V apart near a very large uniformly charged metal plate carrying a surface charge density σsigma = 0.79 μC/m2 Part A How far apart (in space) are the equipotential surfaces? (Δx=?) Express your answer using two significant figures.arrow_forwardIn the pictured region of space, the electric field is equal to 200 N/C (oriented in the y-axis direction). The spacing between the grid lines is 1.0 cm. The goal of the problem is to calculate the potential difference between points A and B, by doing a path integral by hand. I need help with parts A-Darrow_forwardHelp me pleasearrow_forward
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