There is an infinitely long conducting cylinder with a radius of 5.16 cm. The cylinder has a surface charge density of 2.17 microcoulombs per square meter. How much higher is the electric potential at the surface of the cylinder than at its central axis? Give your answer in volts.
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- Chapter 25 Q178: Three circular, nonconducting arcs of radius R = 3 cm.The charges on the arcs are q1 = 5 pC, q2 = 10 pC , q3 = 15 pC. With V = 0 at infinity, what is the net electric potential of the arcs at the common center of 45.0/ 45.0° curvature? R 93 92A uniform electric field exists in the region between two oppositely charged parallel plates. The electric field has a magnitude of 5.49 × 10³ N/C. The plates are separated by 0.500 cm. The potential difference between the two plates is V. Express your answer in normal format and 3 SF.A uniform electric field of magnitude 336 V/m is directed in the positive x-direction. Suppose a 19 µC charge moves from the origin to point A at the coordinates, (20 cm, 53 cm). What is the absolute value of the change in potential from the origin to point A? Answer in units of V.
- A spherical conductor with a 0.353 m radius is initially uncharged. How many electrons should be removed from the sphere in order for it to have an electrical potential of 4.30 kV at the surface?A point charge of 1 μC is located at the origin, which is the center of a thin spherical shell of 10 cm radius. This shell is uniformly charged with 17 μC. What is the electric field at r=5 cm and r=15?E1 = V/m,E2= V/m.What is the electric potential at these points?V1 = V,V2= V.A charge of uniform density (59 nC/m) is distributed along the x axis from the origin to the pointx = 19.8 m. What is the electric potential (relative to zero at infinity) at a point, x = 83 m. on the x axis?
- 1. In the figure shown, what is the net electric potential at point P? The 4 point particles all have q = +12.00 fC (femtocoulombs) or q = -12.00 fC and d = 4 cm. d P +qA uniform electric field exists in the region between two oppositely charged parallel plates. The electric field has a magnitude of 6.31 x 10³ N/C. The plates are separated by 0.500 cm. The potential difference between the two plates is V. Express your answer in normal format and 3 SF.A plastic rod has been bent into a circle of radius R = 5.03 cm. It has a charge Q, = +7.42 pC uniformly distributed along one-quarter of its circumference and a charge Q, distributed along the rest of the circumference (see the figure). With V = 0 at infinity, what is the electric potential (a) at the center C of the circle and (b) at point P, which is on the central axis of the circle at distance D = 6.91 cm from the center? -6Q1 uniformly P, Q2 R (a) Number Units (b) Number Units Click if you would lik
- Consider two separate systems with four charges of the same magnitude q = 16 µC arranged in the vertexes of a square of length h = 35 cm, see the picture below. Calculate the electric potential at the center of the square (points A and C) and at the middle of the bottom side of the square (points B and D). y y h h А. C. h В D b- The potential at point A, VA = 2320457.1x Units v The potential at point B, Vg = 2378380.8 Units V The potential at point C, Vc = 0 Units V The potential at point D, V, = -908380.8: Units v How much work is required to move a -12 µC charge from point A to point B? The work required, WAs =|-0.7349 X Units J How much work is required to move a -12 µC charge from point C to point D? The work required, Wc-o = 10.90 Units JA thin plastic rod 8.2 cm long carrying charge -0.022 µC is bent into a circular ring. What is the electric potential at the center of the ring, assuming V = 0 at infinity? Express your answer in kV, to at least one digit after the decimal point.A plastic disk of radius R = 72.2 cm is charged on one side with a uniform surface charge density 7.67 fC/m², and then three quadrants of the disk are removed. The remaining quadrant is shown in the figure. With V = 0 at infinity, what is the potential in volts due to the remaining quadrant at point P, which is on the central axis of the original disk at distance D = 0.429 cm from the original center? D