The radius of the equipotential surface B is calculated using the equation :
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Chapter 19, Problem 34 GO A positive point charge (q surface A to anothe Find ra....
Chapter 19, Problem 34 GO A positive point charge (q-+5.80 x 10-8 C) is surrounded by an equipotential surface A, which has a radius of r4-2.95 m. A positive test charge (90 = +3.48 x 10-11 C) moves from surface A to another equipotential surface B, which has a radius rg. The work done by the electric force as the test charge moves from surface A to surface B is WAB--9.11 x 10-9 J. Find ra
A positive point charge (q = +5.97 x 10-8 C) is surrounded by an equipotential surface A, which has a radius of rA = 1.52 m. A positive test charge (q0 = +4.61 x 10-11 C) moves from surface A to another equipotential surface B, which has a radius rB. The work done by the electric force as the test charge moves from surface A to surface B is WAB = -8.39 x 10-9 J. Find rB.
A positive point charge (q = +9.18 x 10-8 C) is surrounded by an equipotential surface A, which has a radius of rA = 1.85 m. A positive test charge (q0 = +4.62 x 10-11 C) moves from surface A to another equipotential surface B, which has a radius rB. The work done by the electric force as the test charge moves from surface A to surface B is WAB = -9.30 x 10-9 J. Find rB
A positive point charge (q = +5.40 x 10-8 C) is surrounded by an equipotential surface A, which has a radius of rA = 2.86 m. A positive test charge (q0 = +4.11 x 10-11 C) moves from surface A to another equipotential surface B, which has a radius rB. The work done by the electric force as the test charge moves from surface A to surface B is WAB = -5.25 x 10-9 J. Find rB.
A positive point charge (q = +7.55 x 10-8 C) is surrounded by an equipotential surface A, which has a radius of rA = 2.99 m. A positive test charge (q0 = +3.53 x 10-11 C) moves from surface A to another equipotential surface B, which has a radius rB. The work done by the electric force as the test charge moves from surface A to surface B is WAB = -9.38 x 10-9 J. Find rB.
A positive point charge (q = +6.99 x 10^(-8) C) is surrounded by an equipotential surface A, which has a radius of rA = 2.63 m. A positive test charge (q0 = +3.62 x 10^(-11) C) moves from surface A to another equipotential surface B, which has a radius rB. The work done by the electric force as the test charge moves from surface A to surface B is WAB = -8.22 x 10^(-9) J. Find rB.
A positive point charge (q = +5.00 times 10-8 C) is surrounded by an equipotential surface A, which has a radius of rA = 1.72 m. A positive test charge (q0 = +3.33 x 10"11 C) moves from surface A to another equipotential surface B, which has a radius rB. The work done by the electric force as the test charge moves from surface A to surface B is WAB = -7.47 x 10"9 J. Find rB.
A positive point charge (q = +6.2 10-8 C) is surrounded by an equipotential surface A, which has a radius of rA = 1.7 m. A positive test charge (q0 = +3.0 10-11 C) moves from surface A to another equipotential surface B, which has a radius rB. The work done by the electric force as the test charge moves from surface A to surface B is WAB = -8.6 10-9 J. Find rB.
Equipotential surfaces A positive point charge is surrounded by an equipotential surface A, which has a radius of rA. A positive test charge moves from surface A to another equipotential surface B, which has a radius rB. In the process, the electric force does negative work (a) Does the electric force acting on the test charge have the same or opposite direction as the displacement of the test charge? O The electric force has the same direction as the displacement...
Chapter 19, Problem 04 GO A particle has a charge o +2.8 μС and moves from point A to pont B a distance of 0 17 m. The particle experiences a costant electrc force, and ts mer n of the force. The difference between the particle's electric potential energy at A and B is EPEA EPE+8.0 x 10 J. (a) Find the magnitude of the electric force that acts on the ng the loco acon particle. (b) Find the magnitude...