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Now we will consider some slightly different related scenarios to Example 20-9. Part A Suppose the charge-29 at 1.00 m is replaced with a charge -5 4 where q=4.11x100. The charge + is at the origin. Is the electric potential positive, negative, or zero at the point = 0.333 m? positive negative zero Submit Request Answer Part B Complete previous part(s) ▾ Part C Find the point between 0 and 1.00 where the electric potential vanishes. Submit VO ALO Request Answer ? m

Now we will consider some slightly different related scenarios to Example 20-9. Part A Suppose the charge-29 at 1.00 m is replaced with a charge -5 4 where q=4.11x100. The charge + is at the origin. Is the electric potential positive, negative, or zero at the point = 0.333 m? positive negative zero Submit Request Answer Part B Complete previous part(s) ▾ Part C Find the point between 0 and 1.00 where the electric potential vanishes. Submit VO ALO Request Answer ? m

College Physics
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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A charge q=4.11×10 C is placed at the origin, z=0, and a second charge equal to-2 is placed on the X axis at the location = 1.00 m. The electric potential vanishes at some point between the charges; that is, for a value of 0.333 m. Now we will consider some slightly different related scenarios to Example 20-9. Part A O positive O negative O Suppose the charge-29 at 1.00 m is replaced with a charge -5 9 where q=4.11x10. The charge +9 is at the origin. Is the electric potential positive, negative, or zero at the point = 0.333 m? zero Submit Part B Complete previous part(s) ▾ Part C Request Answer Find the point between z=0 and 1.00 where the electric potential vanishes. Submit VO A20 + → Ć I ? Request Answer -1m 皿 -1 -0.5 |--1-+-x- +q ● 0 V(V) 400+ 200+ -200+ -400- + Y x's -24 1m i 1.5 x (m)
Transcribed Image Text:A charge q=4.11×10 C is placed at the origin, z=0, and a second charge equal to-2 is placed on the X axis at the location = 1.00 m. The electric potential vanishes at some point between the charges; that is, for a value of 0.333 m. Now we will consider some slightly different related scenarios to Example 20-9. Part A O positive O negative O Suppose the charge-29 at 1.00 m is replaced with a charge -5 9 where q=4.11x10. The charge +9 is at the origin. Is the electric potential positive, negative, or zero at the point = 0.333 m? zero Submit Part B Complete previous part(s) ▾ Part C Request Answer Find the point between z=0 and 1.00 where the electric potential vanishes. Submit VO A20 + → Ć I ? Request Answer -1m 皿 -1 -0.5 |--1-+-x- +q ● 0 V(V) 400+ 200+ -200+ -400- + Y x's -24 1m i 1.5 x (m)
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Refer back to Example 20-9. Suppose we can change the location of the charge -2g on the x axis. The charge +q is still at the origin. Where should the charge -2q be placed to ensure that the electric potential vanishes at z = 2.00 m. d= Submit Part F LIVE] ΑΣΦ Part G Submit LIVE ΑΣΦ 5 Request Answer With the location of -2q found in part E, where does the electric potential pass through the zero in the region < 0? O yes O no Submit Request Answer SWIC Request Answer ? SWIC m ? Refer back to Example 20-9. Suppose the charge +q at the origin is replaced with a charge +5q, where q = 4.11x109. The charge-2q is still at z = 1.00 m. Is there a point in the region < 0 where the electric potential passes through zero? m
Transcribed Image Text:Refer back to Example 20-9. Suppose we can change the location of the charge -2g on the x axis. The charge +q is still at the origin. Where should the charge -2q be placed to ensure that the electric potential vanishes at z = 2.00 m. d= Submit Part F LIVE] ΑΣΦ Part G Submit LIVE ΑΣΦ 5 Request Answer With the location of -2q found in part E, where does the electric potential pass through the zero in the region < 0? O yes O no Submit Request Answer SWIC Request Answer ? SWIC m ? Refer back to Example 20-9. Suppose the charge +q at the origin is replaced with a charge +5q, where q = 4.11x109. The charge-2q is still at z = 1.00 m. Is there a point in the region < 0 where the electric potential passes through zero? m
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