@2WSAssignment Score:Question 9 of 15X# 3EThe figure shows a prism-shaped object that is 40.0 cm high,30.0 cm deep, and 80.0 cm long. The prism is immersed in auniform electric field of 700 N/C directed parallel to the x-axis.D>Calculate the electric flux D, out of Surface I (theback surface).Calculate the electric flux D₁ out of Surface II (thebottom surface).C83.3%Calculate the electric flux P out of Surface III (theleft end).Calculate the electric flux Dry out of Surface IV (theright end).ASA$4RFer s%5VFTG^6BMacBook ProYH&7NUJ* 00ResourcesMP₁ =Div =ФП = 0-Surface IP = 0K(9Ex Give Up?Surface III-224-X0O<hI)0LdP>.Feedback-:;Surface II{[?+ 1111ResumeIAttempt 1Surface IVSurface VN-m²/CN-m²/CN-m²/CN-m²/C}]deleteKreturnshift <@2Assignment Score: 83.3%Question 9 of 15 >WSX#3Calculate the electric flux P out of Surface III (theleft end).Calculate the electric flux Dy out of Surface IV (theright end).Calculate the electric flux py out of Surface V (thefront surface).ECalculate the net electric flux out of the entireclosed surface.DIf in addition to the given electric field the prism alsoenclosed a point charge of -2.00 μC, how wouldyour answers above change qualitatively, if at all?The electric flux out of each surface would increase.The electric flux out of each surface would decrease.O The electric flux through each surface wouldnot change.C$4RF%5V仪TGA6BMacBook ProCOYH➡))&7NU00 *8JResourcesPII = 0Φιν =Dy =MФ =Incorrect(900IncorrectK224C Give Up?0مهV)J0LP:38.;✓Feedback{[?+=11CIResumeAttempt 1N-m²/CN-m²/CN-m²/CN-m²/C}1delete>returnshift

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© Macmillan Learning The figure shows a prism-shaped object that is 40.0 cm high, 30.0 cm deep, and 80.0 cm long. The prism is immersed in a uniform electric field of 700 N/C directed parallel to the x-axis. Calculate the electric flux D, out of Surface I (the back surface). Calculate the electric flux P₁ out of Surface II (the bottom surface). Calculate the electric flux D out of Surface III (the left end). $₁ = P₁ = Surface I -X Surface III -224 0 h 0 Surface II Surface IV Surface V N-m²/C N-m²/C N-m²/C

© Macmillan Learning The figure shows a prism-shaped object that is 40.0 cm high, 30.0 cm deep, and 80.0 cm long. The prism is immersed in a uniform electric field of 700 N/C directed parallel to the x-axis. Calculate the electric flux D, out of Surface I (the back surface). Calculate the electric flux P₁ out of Surface II (the bottom surface). Calculate the electric flux D out of Surface III (the left end). $₁ = P₁ = Surface I -X Surface III -224 0 h 0 Surface II Surface IV Surface V N-m²/C N-m²/C N-m²/C

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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Electric Charges and Fields

One of the fundamental properties is the electromagnetic property. Charge cannot be destroyed by any process and this contributes formally to the law of charge conservation.

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