Physics for Scientists and Engineers: A Strategic Approach with Modern Physics (4th Edition)
4th Edition
ISBN: 9780133942651
Author: Randall D. Knight (Professor Emeritus)
Publisher: PEARSON
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Chapter 25, Problem 11CQ
ll. FIGURE Q25.11 shows three points near two point charges. The charges have equal magnitudes. For each part, rank in order, from most positive to most negative, the potentials
FIGURE Q25.11
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Chapter 25 Solutions
Physics for Scientists and Engineers: A Strategic Approach with Modern Physics (4th Edition)
Ch. 25 - a. Charge q1is distance r from a positive point...Ch. 25 - FIGURE Q25.2 shows the potential energy of a...Ch. 25 - An electron moves along the trajectory of FIGURE...Ch. 25 - Two protons are launched with the same speed from...Ch. 25 - Rank in order, from most positive to most...Ch. 25 - FIGURE Q25.6 shows the electric potential along...Ch. 25 - A capacitor with plates separated by distance d is...Ch. 25 - Prob. 8CQCh. 25 - FIGURE Q25.9 shows two points inside a capacitor....Ch. 25 - FIGURE Q25.10 shows two points near a positive...
Ch. 25 - ll. FIGURE Q25.11 shows three points near two...Ch. 25 - Reproduce FIGURE Q25.12 on your paper. Then draw a...Ch. 25 - I. The electric field strength is 20,000 N/C...Ch. 25 - The electric field strength is 50,000 N/C inside a...Ch. 25 - A proton is released from rest at the positive...Ch. 25 - A proton is released from rest at the positive...Ch. 25 - Prob. 5EAPCh. 25 - What is the electric potential energy of the group...Ch. 25 - What is the electric potential energy of the group...Ch. 25 - Two positive point charges are 5.0 cm apart. If...Ch. 25 - A water molecule perpendicular to an electric...Ch. 25 - FIGURE EX25.10 shows the potential energy of an...Ch. 25 - What is the speed of a proton that has been...Ch. 25 - I What is the speed of an electron that has been...Ch. 25 - What potential difference is needed to accelerate...Ch. 25 - Prob. 14EAPCh. 25 - A proton with an initial speed of 800,000 m/s is...Ch. 25 - Prob. 16EAPCh. 25 - Prob. 17EAPCh. 25 - In proton-beam therapy, a higher-energy beam of...Ch. 25 - Prob. 19EAPCh. 25 - Prob. 20EAPCh. 25 - Prob. 21EAPCh. 25 - Prob. 22EAPCh. 25 - Prob. 23EAPCh. 25 - Prob. 24EAPCh. 25 - Two 2.0-cm-diameter disks spaced 2.0 mm apart form...Ch. 25 - In FIGURE EX25.26, a proton is fired with a speed...Ch. 25 - Prob. 27EAPCh. 25 - Prob. 28EAPCh. 25 - Prob. 29EAPCh. 25 - Prob. 30EAPCh. 25 - Prob. 31EAPCh. 25 - Prob. 32EAPCh. 25 - Prob. 33EAPCh. 25 - Prob. 34EAPCh. 25 - Prob. 35EAPCh. 25 - A 5.0-cm-diamtere metal ball has a surface charge...Ch. 25 - Prob. 37EAPCh. 25 - Prob. 38EAPCh. 25 - Prob. 39EAPCh. 25 - Prob. 40EAPCh. 25 - Prob. 41EAPCh. 25 - The four 1.0 g sphere shown in FIGURE P25.42 are...Ch. 25 - A proton’s speed as it passes point A is 50,000...Ch. 25 - Prob. 44EAPCh. 25 - Prob. 45EAPCh. 25 - Prob. 46EAPCh. 25 - Prob. 47EAPCh. 25 - Prob. 48EAPCh. 25 - Prob. 49EAPCh. 25 - Prob. 50EAPCh. 25 - What is the escape speed of an electron launched...Ch. 25 - Prob. 52EAPCh. 25 - Prob. 53EAPCh. 25 - Il A 2.0-mm-diameter glass bead is positively...Ch. 25 - Prob. 55EAPCh. 25 - Il A proton is fired from far away toward the...Ch. 25 - Prob. 57EAPCh. 25 - Prob. 58EAPCh. 25 - Il One form of nuclear radiation, beta decay,...Ch. 25 - Il Two 10-cm-diameterelectrodes 0.50 cm a part...Ch. 25 - Il Two 10-cm-diameter electrodes 0.50 cm apart...Ch. 25 - Il Electrodes of area A are spaced distance d...Ch. 25 - Prob. 63EAPCh. 25 - Il Two spherical drops of mercury each have a...Ch. 25 - Prob. 65EAPCh. 25 - Il FIGURE P25.66 shows two uniformly charged...Ch. 25 - Prob. 67EAPCh. 25 - Il The arrangement of charges shown in FIGURE...Ch. 25 - Il FIGURE P25.69 shows a thin rod of length L and...Ch. 25 - Il FIGURE P25.69 shows a thin rod of length L and...Ch. 25 - I FIGURE P25.71 shows a thin rod with charge Q...Ch. 25 - Prob. 72EAPCh. 25 - Prob. 73EAPCh. 25 - Prob. 74EAPCh. 25 - Prob. 75EAPCh. 25 - Prob. 76EAPCh. 25 - Prob. 77EAPCh. 25 - Il A proton and an alpha particle (q = +2e, m = 4...Ch. 25 - Ill Bead A has a mass of 15 g and a charge of —5.0...Ch. 25 - Il Two 2.0-mm-diameter beads, C and D, are 10 mm...Ch. 25 - Il A thin rod of length L and total charge Q has...Ch. 25 - Il A hollow cylindrical shell of length L and...
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- Given two particles with 2.00-C charges as shown in Figure P20.9 and a particle with charge q = 1.28 1018 C at the origin, (a) what is the net force exerted by the two 2.00-C charges on the test charge q? (b) What is the electric field at the origin due to the two 2.00-C particles? (c) What is the electric potential at the origin due to the two 2.00-C particles? Figure P20.9arrow_forwardTwo 5.00-nC charged particles are in a uniform electric field with a magnitude of 625 N/C. Each of the particles is moved from point A to point B along two different paths, labeled in Figure P26.65. a. Given the dimensions in the figure, what is the change in the electric potential experienced by the particle that is moved along path 1 (black)? b. What is the change in the electric potential experienced by the particle that is moved along path 2 (red)? c. Is there a path between the points A and B for which the change in the electric potential is different from your answers to parts (a) and (b)? Explain. FIGURE P26.65 Problems 65, 66, and 67.arrow_forwardFIGURE P26.14 Problems 14, 15, and 16. Four charged particles are at rest at the corners of a square (Fig. P26.14). The net charges are q1 = q2 = 2.65 C and q3 = q4 = 5.15 C. The distance between particle 1 and particle 3 is r13 = 1.75 cm. a. What is the electric potential energy of the four-particle system? b. If the particles are released from rest, what will happen to the system? In particular, what will happen to the systems kinetic energy as their separations become infinite?arrow_forward
- Figure P24.22 represents a graph of the electric potential in a region of space versus position x, where the electric field is parallel to the x axis. Draw a graph of the x component of the electric field versus x in this region. Figure P24.22arrow_forwardAt a certain distance from a charged particle, the magnitude of the electric field is 500 V/m and the electric potential is 3.00 kV. (a) What is the distance to the particle? (b) What is the magnitude of the charge?arrow_forwardThe two charges in Figure P25.14 are separated by d = 2.00 cm. Find the electric potential at (a) point .A and (b) point B, which is halfway between the charges.arrow_forward
- Figure P26.80 shows a wire with uniform charge per unit length = 2.25 nC/m comprised of two straight sections of length d = 75.0 cm and a semicircle with radius r = 25.0 cm. What is the electric potential at point P, the center of the semicircular portion of the wire? FIGURE P26.80arrow_forwardA rod of length L (Fig. P20.26) lies along the x axis with its left end at the origin. It has a nonuniform charge density = x, where is a positive constant. (a) What are the units of ? (b) Calculate the electric potential at A. Figure P20.26arrow_forward(a) What is the potential between two points situated 10 cm and 20 cm from a 3.0 C point charge? (b) To what location should the point at 20 cm be moved to increase this potential difference by a factor of two?arrow_forward
- The electric field strength between two parallel conducting plates separated by 4.00 cm is 7.50 104 V/m. (a) What is the potential difference between the plates? (b) The plate with the lowest potential is taken to be at zero volts. What is the potential 1.00 cm from that plate (and 3.00 cm from the other)?arrow_forward(a) Find the electric potential, taking zero at infinity, at the upper right corner (the corner without a charge) of the rectangle in Figure P16.13. (b) Repeat if the 2.00-C charge is replaced with a charge of 2.00 C. Figure P16.13 Problems 13 and 14.arrow_forwardA uniformly charged filament lies along the x axis between x = a = 1.00 m and x = a + = 3.00 m as shown in Figure P25.66. The total charge on the filament is 1.60 nC. Calculate successive approximations for the electric potential at the origin by modeling the filament as (a) a single charged particle at x = 2.00 m, (b) two 0.800-nC charged particles at x = 1.5 m and x = 2.5 m, and (c) four 0.400-nC charged particles at x = 1.25 m, x = 1.75 m, x = 2.25 m, and x = 2.75 m. (d) Explain how the results compare with the potential given by the exact expression v=klQlln(l+aa)arrow_forward
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