College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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- Consider a certain amount of a conducting liquid sprayed into 650 equal spherical drops. Each drop is charged to the same electric potential of 2.5 V (relative to the infinity where potential is zero). If all these 650 drops are combined into one large spherical drop, what is the electric potential of this large drop? The electric potential of the large drop, V = Units Select an answer ✓arrow_forwardCharge q1 = -8.5 nC is located at the coordinate system origin, while charge q2 = -5.56 nC is located at (a, 0), where a = 1.1 m. The point P has coordinates (a, b), where b = 0.45 m. A third charge q3 = 18.5 nC will be placed later. a) Find the electric potential VP at point P, in volts. Assume the potential is zero at infinity. b) How much work W, in joules, would you have to do to bring the third charge, q3, from very far away to the point P?arrow_forwardWhen an electron moves from A to B along an electric field line in the figure, the electric field does 3.45 x 10-19 Jof work on it. What are the electric potential differences (a)VB - Va. (b)Vc - Va, and (c)Vc - Vg? Electric field line Equipotentials (a) Number i Units (b) Number Units (c) Number i Units >arrow_forward
- The two charges in the figure below are separated by d = 3.50 cm. (Let q, = -14.5 nC and q, = 29.5 nC.) К60.0° В d 92 (a) Find the electric potential at point A. kV (b) Find the electric potential at point B, which is halfway between the charges. kVarrow_forwardHelp mearrow_forwardV(x) The 10V А В DE 1V 0 1 2 3 4 5 6 (cm) graph shows the potential V as a function of position x. Please consider the electric fields in the five regions, A through E for the following questions. In which region does the direction of the electric field point left: Submit Answer Tries 0/2 The magnitude (i.e. absolute value) of the electric field in region A is: V/m Submit Answer Tries 0/2 The magnitude (i.e. absolute value) of the electric field in region B is: V/marrow_forward
- A 11.5 nC charge is at x = 0 cm and a -1.5 nC charge is at x= 6.0 cm .At what point or points on the x-axis is the electric potential zero?arrow_forwardThere Is a positive charge Q at x = 5 cm on the x-axis, and a negative charge -2Q at x = 15 cm on the x-axis. What are the total electric field and electric potential at x = 10 cm on the x- axis? Assume the usual convention for defining the potential of a polnt charge. E (vector) points to positive x, V is negative E (yector) points to positive x, V is positive E (vector) points to negative x, V is negative E (vector) is zero, V is zero E (vector) is zero, V snegative E (vector) points to negative Vis postivearrow_forwardThe potential in a region between x = 0 and x = 6.00 m is V = a + bx, where a = 15.2 V and b = -3.50 V/m. a) Determine the potential at x= 0, x= 3.00 m, and x= 6.00 m. b) Determine the magnitude (Vm) and direction of the electric field at x= 0, x= 3.00 m, and x= 6.00 m.arrow_forward
- Problem 18: The electric potential in a certain region is given by the equation V(x,y,z) = 3αx2y3 - 2γx2y4z2 where the potential is in volts when the positions are given in meters. Part (d) The constants in this equation are α = 5.2 V/m5 and γ = 1.39 V/m8. Using this information, calculate the magnitude of the electric field at the point (x1,y1,z1) = (-5.0, 2.0, 1.5) m in units of newtons per coulomb.arrow_forwardThree electric charges -5 nC and 10 nC and +5 nC and are separated with a distance of 40.0 cm from eachother and are aligned on the x-axis. Find the total electric potential differences at point p at 40 cm from the last charge on the x-axis.arrow_forwardConsider 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). h A. C. h B D -4 The potential at point A, VA = 2324567.7 x Units V The potential at point B, Ve = 2378380.6 Units V The potential at point C, Vc =0 Units V The potential at point D, V, = -908380.8: v Units v How much work is required to move a -12 µC charge from point A to point B? The work required, W = -0.64575 xUnits J How much work is required to move a -12 µC charge from point C to point D? Units J The work required, Wc-p = 10.90arrow_forward
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