Show ALL YOUR WORK! Give a detailed solution Below is a diagram of a VERY long line of negative charge (horizontal) and a positive point charge below it. (here is the diagram in pdf) A. Find the total E-field vector at Point B. (Give detailed solution & include vectors) B. Calculate the acceleration vector of an electron placed at Point B.(Give detailed solution) 8150 J. NOTE 1: Your answers should look like this: E = 4420 - 8150 NOTE 2: For this question we are not using Point A. HINT: your electric field vector should point up and to the right. Long line of charge 30.0 cm Point A 30.0 cm 2 = 25.0 nc m 60.0⁰ 15.0 cm = 4.00 nC 22.5 cm 9 = point charge Point B

Show ALL YOUR WORK! Give a detailed solution Below is a diagram of a VERY long line of negative charge (horizontal) and a positive point charge below it. (here is the diagram in pdf) A. Find the total E-field vector at Point B. (Give detailed solution & include vectors) B. Calculate the acceleration vector of an electron placed at Point B.(Give detailed solution) 8150 J. NOTE 1: Your answers should look like this: E = 4420 - 8150 NOTE 2: For this question we are not using Point A. HINT: your electric field vector should point up and to the right. Long line of charge 30.0 cm Point A 30.0 cm 2 = 25.0 nc m 60.0⁰ 15.0 cm = 4.00 nC 22.5 cm 9 = point charge Point B

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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Question

Show ALL YOUR WORK! Give a detailed solution
Below is a diagram of a VERY long line of negative charge (horizontal) and a
positive point charge below it.
(here is the diagram in pdf)
A. Find the total E-field vector at Point B. (Give detailed solution & include
vectors)
B. Calculate the acceleration vector of an electron placed at Point B.(Give
detailed solution)
NOTE 1: Your answers should look like this: E = 4420
NOTE 2: For this question we are not using Point A.
HINT: your electric field vector should point up and to the right.
Long line of charge
30.0 cm
Point A
4420-815003.
30.0 cm
λ = -25.0 nC
nc
m
60.0⁰
+
q = 4.00 nC
point charge
22.5 cm
15.0 cm
Point B

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please follow this criteria and try to explain everything. Include a drawing of the charge distribution and the point at which the E-field is being evaluated. Include a sample vector diagram, showing the electric-field vectors for critical do's. Use the diagrams to help explain any cancellations due to symmetry. Set up the integrals to determine the non-zero electric-field components. Show your work reasoning for constructing the integrals. Assess: is your result reasonable? Do the solutions have the correct behavior far away from the charge?
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