If the radius of the equipotential surface of point charge is 12.3 m at a potential of 1.60 kV, what is the magnitude of the point charge creating the potential?
If the radius of the equipotential surface of point charge is 12.3 m at a potential...
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...
For a single, isolated point charge carrying a charge of ?=3.02×10−11 C , one equipotential surface consists of a sphere of radius ?1=0.0294 m centered on the point charge as shown in the figure.What is the potential on this surface? potential: V Now consider an additional equipotential surface that is separated by 2.87 V from the previously mentioned surface. How far from the point charge should this surface be? This surface must also meet the condition of being farther from...
A positive charge is moved from one point to another point along an equipotential surface. The work required to move the charge depends on the magnitude of the potential. depends on the sign of the potential. is negative. is zero. is positive.
An equipotential surface that surrounds a point charge q has a potential of 559 V and an area of 1.12 m2. Determine q.
An equipotential surface that surrounds a point charge q has a potential of 457 V and an area of 1.94 m2. Determine q.
An equipotential surface that surrounds a point charge q has a potential of 540 V and an area of 1.33 m2. Determine q.
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.
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.