Physics For Scientists And Engineers: Foundations And Connections, Extended Version With Modern Physics
Physics For Scientists And Engineers: Foundations And Connections, Extended Version With Modern Physics
1st Edition
ISBN: 9781305259836
Author: Debora M. Katz
Publisher: Cengage Learning
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Chapter 26, Problem 27PQ

(a)

To determine

The electric potential due to the two charges at the origin.

(a)

Expert Solution
Check Mark

Answer to Problem 27PQ

The electric potential due to the two charges at the origin is 8.21×105V_.

Explanation of Solution

The total electric potential at origin is the sum of the potential from individual charges.

Write the expression for total electric potential.

  V=kei=12qiri=ke(q1r1+q2r2)                                                                                                  (I)

Here, q1 and q2 are charges, r1 and r2 are distances from origin.

Conclusion:

Substitute, 8.99×109Nm2/C2 for ke, 6.75×106C for q1, 3.20×106C for q2, 3.25×102m for r1, and 2.75×102m for r2 in equation (I).

  V=(8.99×109Nm2/C2)(6.75×106C3.25×102m+3.20×106C2.75×102m)=8.21×105V

Therefore, the electric potential due to the two charges at the origin is 8.21×105V_.

(b)

To determine

The electric potential due to the two charges at (3.00cm,0).

(b)

Expert Solution
Check Mark

Answer to Problem 27PQ

The electric potential due to the two charges at (3.00cm,0) is 6.65×105V_.

Explanation of Solution

The first qA is at (0.325cm,0) and the point is at (3.00cm,0).

Write the expression for the distance between two points if the coordinates are given.

  rA=(x2x1)2+(y2y1)2                                                                              (II)

For qA, (x1,y1) is (0.325cm,0), and (x2,y2) is (3.00cm,0), and for qB, (x1,y1) is (0,2.75cm), and (x2,y2) is (3.00cm,0).

Use equation (I) to find the potential due to two charges at (3.00cm,0).

Conclusion:

Substitute, 0.0325m for y1, 0 for y2, 0 for x1, and 0.030m for x2 in equation (II) to the find distance from charge qA to the point in space.

  rA=(00.0325m)2+(0.030m0)2=(0.0325m)2+(0.030m)2

Substitute, 0.0275m for y1, 0 for y2, 0 for x1, and 0.030m for x2 in equation (II) to the find distance from charge qB to the point in space.

  rB=(0.030m0)2+(00.0275m)2=(0.030m)2+(0.0275m)2

Substitute, 8.99×109Nm2/C2 for ke, 6.75×106C for q1, 3.20×106C for q2, (0.0325m)2+(0.0300m)2 for rA, and (0.0300m)2+(0.0275m)2 for rB in equation (I).

  V=(8.99×109Nm2/C2)(6.75×106C(0.0325m)2+(0.0300m)2+3.20×106C(0.0300m)2+(0.0275m)2)=6.65×105V

Therefore, the electric potential due to the two charges at (3.00cm,0) is 6.65×105V_.

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Chapter 26 Solutions

Physics For Scientists And Engineers: Foundations And Connections, Extended Version With Modern Physics

Ch. 26 - Try to complete Table P26.4 from memory. If you...Ch. 26 - Try to complete Table P26.5 from memory. If you...Ch. 26 - Can you associate electric potential energy with...Ch. 26 - Consider the final arrangement of charged...Ch. 26 - Using the usual convention that the electric...Ch. 26 - FIGURE P26.8 A Find an expression for the electric...Ch. 26 - A hydrogen atom consists of an electron and a...Ch. 26 - What is the work that a generator must do to move...Ch. 26 - How far should a +3.0-C charged panicle be from a...Ch. 26 - A proton is fired from very far away directly at a...Ch. 26 - Four charged particles are at rest at the corners...Ch. 26 - FIGURE P26.14 Problems 14, 15, and 16. Four...Ch. 26 - Four charged particles are at rest at the corners...Ch. 26 - Eight identical charged particles with q = 1.00 nC...Ch. 26 - A conducting sphere with a radius of 0.25 m has a...Ch. 26 - The speed of an electron moving along the y axis...Ch. 26 - Figure P26.20 is a topographic map. a. Rank A, B,...Ch. 26 - At a point in space, the electric potential due to...Ch. 26 - Explain the difference between UE(r) = kQq/r and...Ch. 26 - Suppose a single electron moves through an...Ch. 26 - Two point charges, q1 = 2.0 C and q2 = 2.0 C, are...Ch. 26 - Separating the electron from the proton in a...Ch. 26 - Can a contour map help you visualize the electric...Ch. 26 - Prob. 27PQCh. 26 - Find the electric potential at the origin given...Ch. 26 - Prob. 29PQCh. 26 - Prob. 30PQCh. 26 - Prob. 31PQCh. 26 - Prob. 32PQCh. 26 - A source consists of three charged particles...Ch. 26 - Two identical metal balls of radii 2.50 cm are at...Ch. 26 - Figure P26.35 shows four particles with identical...Ch. 26 - Two charged particles with qA = 9.75 C and qB =...Ch. 26 - Two charged particles with q1 = 5.00 C and q2 =...Ch. 26 - Prob. 38PQCh. 26 - Prob. 39PQCh. 26 - A uniformly charged ring with total charge q =...Ch. 26 - A line of charge with uniform charge density lies...Ch. 26 - A line of charge with uniform charge density =...Ch. 26 - A Consider a thin rod of total charge Q and length...Ch. 26 - Figure P26.44 shows a rod of length = 1.00 m...Ch. 26 - The charge density on a disk of radius R = 12.0 cm...Ch. 26 - Prob. 46PQCh. 26 - In some region of space, the electric field is...Ch. 26 - A particle with charge 1.60 1019 C enters midway...Ch. 26 - Prob. 49PQCh. 26 - Prob. 50PQCh. 26 - Prob. 51PQCh. 26 - Prob. 52PQCh. 26 - Prob. 53PQCh. 26 - According to Problem 43, the electric potential at...Ch. 26 - The electric potential is given by V = 4x2z + 2xy2...Ch. 26 - The electric potential V(x, y, z) in a region of...Ch. 26 - Prob. 57PQCh. 26 - In three regions of space, the electric potential...Ch. 26 - Prob. 59PQCh. 26 - Prob. 60PQCh. 26 - The distance between two small charged spheres...Ch. 26 - Prob. 62PQCh. 26 - A glass sphere with radius 4.00 mm, mass 85.0 g,...Ch. 26 - Prob. 64PQCh. 26 - Two 5.00-nC charged particles are in a uniform...Ch. 26 - A 5.00-nC charged particle is at point B in a...Ch. 26 - A charged particle is moved in a uniform electric...Ch. 26 - Figure P26.68 shows three small spheres with...Ch. 26 - What is the work required to charge a spherical...Ch. 26 - For a system consisting of two identical...Ch. 26 - Figure P26.71 shows three charged particles...Ch. 26 - Problems 72, 73, and 74 are grouped. 72. A Figure...Ch. 26 - A Start with V=2k[(R2+x2)x] for the electric...Ch. 26 - A Review Consider the charged disks in Problem 72...Ch. 26 - A long thin wire is used in laser printers to...Ch. 26 - An electric potential exists in a region of space...Ch. 26 - A disk with a nonuniform charge density =ar2 has...Ch. 26 - An infinite number of charges with q = 2.0 C are...Ch. 26 - An infinite number of charges with |q| =2.0 C are...Ch. 26 - Figure P26.80 shows a wire with uniform charge per...Ch. 26 - Prob. 81PQ
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