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Physics for Scientists and Engineers, Volume 1
9th Edition
ISBN: 9781133954156
Author: Raymond A. Serway
Publisher: CENGAGE L
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Textbook Question
Chapter 24, Problem 24.49AP
Find the electric flux through the plane surface shown in Figure P23.37 if θ = 60.0°, E = 350 N/C, and d = 5.00 cm. The electric field is uniform over the entire area of the surface.
Figure P23.37
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A uniform electric field of magnitude E = 435 N/C makes an angle of θ = 65.0° with a plane surface of area A = 3.50 m2 as in Figure P15.44. Find the electric flux through this surface.
A uniform electric field of magnitude E = 435 N/C makes an angle of O = 65.0° with a plane surface of area A = 3.50 m2 as in Figure P15.40. Find the electric flux through this surface.
Consider the uniform electric field E = (2.5 j + 2.5 k) × 103 N/C.
a) Calculate the electric flux through a circular area of radius 2.75 m that lies in the yz-plane. Give your answer in N·m2/C.
b) Repeat the electric flux calculation for the circular area for the case when its area vector is directed at 45° above the xy-plane. Give your answer in N·m2/C.
Chapter 24 Solutions
Physics for Scientists and Engineers, Volume 1
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Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, physics and related others by exploring similar questions and additional content below.Similar questions
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- A 3.2-cm-diameter circle lies in the yz-plane with unit vector n^ pointing in the +x-direction. What is the electric flux through the circle if the electric field is E =(2500i^−1500j^+4000k^)N/C?arrow_forwardA 3.7 cm × 4.0 cm rectangle lies in the xy-plane. What is the electric flux through the rectangle if E (vector) =(120ı^−240k^)N/C? What is the electric flux through the rectangle if E (vector) =(120ı^−240ȷ^)N/C?arrow_forwardAn insulating solid sphere of radius R = 6.0cm has a total positive charge Q uniformly distributed throughout its volume. The electric flux through a spherical Gaussian surface of radius r = 3.0cm is 2.26x105N.m2/C. How much charge (in units of μC) is enclosed by the Gaussian surface of radius r =3.0cm? What is the magnitude ( in units of 106N/C) of the E-field at the Gaussian surface of part (1)? What is the magnitude (in units of 106N/C) of the E-field at surface of the sphere?arrow_forward
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