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7/29/2019 problemasdecargaelctricayleydegauss-tappens-100401183515-phpapp01

1/13

Chapter 23. The Electric Force Physics, 6th

Edition

316

Chapter 23. The Electric Force

Coulomb's Law

23-1. Two balls each having a charge of 3 C are separated by 20 mm. What is the force of

repulsion between them?

9 2 2 -6 -6

-3 2

(9 x 10 N m /C )(3 x 10 C)(3 x 10 C)

(20 x 10 m)F

; F = 202 N

23-2. Two point charges of -3 and +4 C are 12 mm apart in a vacuum. What is the electrostatic

force between them?

9 2 2 -6 -6

-3 2

(9 x 10 N m /C )( 3 x 10 C)(4 x 10 C)

(12 x 10 m)F

; F = 750 N, attraction

23-3. An alpha particle consists of two protons (qe = 1.6 x 10-19

C) and two neutrons (no

charge). What is the repulsive force between two alpha particles separated by 2 nm?

q = 2(1.6 x 10-19

C) = 3.2 x 10-19

C

9 2 2 -19 -19

-9 2

(9 x 10 N m /C )(3.2 x 10 C)(3.2 x 10 C)

(2.00 x 10 m)F

; F = 2.30 x 10-10

N

23-4. Assume that the radius of the electron's orbit around the proton in a hydrogen atom is

approximately 5.2 x 10-11

m. What is the electrostatic force of attraction?

9 2 2 -19 -19

-11 2

(9 x 10 N m /C )(1.6 x 10 C)( 1.6 x 10 C)

(5.2 x 10 m)F

; F = 8.52 x 10-8 N

23-5. What is the separation of two -4 C charges if the force of repulsion between them is

200 N?

9 2 2 -6 2' (9 x 10 N m /C )( 4 x 10 C)

200 N

kqqr

F

; r = 26.8 mm


2/13


Edition

317

23-6. Two identical charges separated by 30 mm experience a repulsive force of 980 N. What is

the magnitude of each charge?

2 2 2

2 9 2 2

(980 N)(0.030 m)

; 9 x 10 N m /C

kq Fr

F qr k

; q = 9.90 C

*23-7. A 10 C charge and a -6 C charge are separated by 40 mm. What is the force between

them. The spheres are placed in contact for a few moments and then separated again by

40 mm. What is the new force? Is it attractive or repulsive?

9 2 2 -6 -6

-3 2(9 x 10 N m /C )( 6 x 10 C)(10 x 10 C)(40 x 10 m)F


When spheres touch, 6 C of charge are neutralized,

leaving4 C to be shared by two spheres, or

+2 C on each sphere. Now they are again separated.

9 2 2 -6 -6

2

(9 x 10 N m /C )(2 x 10 C)(2 x 10 C)

(0.080 m)

F

;

F = 5.62 N, repulsion

*23-8. Two point charges initially attract each other with a force of 600 N. If their separation is

reduced to one-third of its original distance, what is the new force of attraction?

22

2 2 1 1

1 1 2 2 2 1 12 22 2

1

; ;

r r

F F r F r F F Fr r r

; r1 = 3 r2

2

22 1 1

2

39 ;

rF F F

r

F2 = 5400 N

2 C2 C

-6 C 10 C

0.08 m

2 C 2 C

0.08 m


3/13


Edition

318

The Resultant Electrostatic Force

23-9. A +60 C charge is placed 60 mm to the left of a +20 C charge. What is the resultant

force on a -35 C charge placed midway between the two charges?

9 2 2 -6 -6

13 -3 2

(9 x 10 N m /C )(60 x 10 C)(35 x 10 C)

(30 x 10 m)F

F13 = 2.10 x 104

N, directed to the left

9 2 2 -6 -6

23 -3 2

(9 x 10 N m /C )(20 x 10 C)(35 x 10 C)

(30 x 10 m)F

; F13 = 2.10 x 104

N, directed to right.

FR = F13 + F23 = (-2.10 x 104

N) + (0.700 x 104

N); FR = -1.40 x 104

N, left.

23-10. A point charge of +36 C is placed 80 mm to the left of a second point charge of -22 C.

What force is exerted on third charge of +10 C located at the midpoint?

9 2 2 -6 -6

13 -3 2

(9 x 10 N m /C )(36 x 10 C)(10 x 10 C)

(40 x 10 m)F

F13 = 2025 N, directed to the right

9 2 2 -6 -6

23 -3 2

(9 x 10 N m /C )(22 x 10 C)(10 x 10 C)

(40 x 10 m)F

; F13 = 1238 N, directed to right.

FR = F13 + F23 = 2025 N + 1238 N; FR = 3260 N, left.

23-11. For Problem 23-10, what is the resultant force on a third charge of +12 C placed

between the other charges and located 60 mm from the +36 C charge?

9 2 2 -6 -6

13 -3 2(9 x 10 N m /C )(36 x 10 C)(12 x 10 C

(60 x 10 m)F

9 2 2 -6 -6

23 -3 2

(9 x 10 N m /C )(22 x 10 C)(12 x 10 C)

(20 x 10 m)F

;

Both to right, so FR = F13 + F23 = 1080 N + 5940 N; F = 7020 N, rightward.

F1 F2

q3 q2q1

-35 C +20 C+60 C60 mm

F1

F2

q3 q2q1

10 C -22 C+36 C80 mm

q3 = 12 C -22 C

60 mmF1

F2

q2q1

+36 C 80 mm


4/13


Edition

319

23-12. A +6 C charge is 44 mm to the right of a -8 C charge. What is the resultant force on a

-2 C charge that is 20 mm to the right of the -8 C charge?

9 2 2 -6 -6

13 -3 2

(9 x 10 N m /C )(8 x 10 C)(2 x 10 C)

(20 x 10 m)F

9 2 2 -6 -6

23 -3 2

(9 x 10 N m /C )(2 x 10 C)(6 x 10 C)

(24 x 10 m)F

;

Both to right, so FR = F13 + F23 = 360 N + 187.5 N; F = 548 N, rightward

*23-13. A 64-C charge is locate 30 cm to the left of a 16-C charge. What is the resultant force

on a -12 C charge positioned exactly 50 mm below the 16 C charge?

2 2(30 mm) (50 mm) 58.3 mms

050 mmtan ; 59.030 mm

9 2 2 -6 -6

13 -3 2

(9 x 10 N m /C )(64 x 10 C)(12 x 10 C)

(58.3 x 10 m)F

F13 = 2033 N, 59.00 N of W

9 2 2 -6 -6

23 -3 2

(9 x 10 N m /C )(16 x 10 C)(12 x 10 C)

(50 x 10 m)F

= 691 N, upward.

Fx = 0F13 cos 59.00

= -(2033 N) cos 590

; Fx = -1047 N

Fy = F23 + F13 sin 59.00

= 691 N + (2033 N) sin 590; Fy = 2434 N

2 2 2434 N

( 1047 N) (2434 N) 2650 N; tan -1047 NF

; = 66.7

0

N of W.

Resultant force: FR= 2650 N, 66.70

N of W (or 113.30)

q3 = -2 C 6 C

20 mmF1

F2

q2q1

-8 C44 mm

24 mm

s50 mm

q3 = -12 C

16 C30 mm

F1 F2

q2

q1

+64 C


5/13


Edition

320

*23-14. A charge of +60 nC is located 80 mm above a -40-nC charge. What is the resultant force

on a -50-nC charge located 45 mm horizontally to the right of the -40-nC charge?

2 2(45 mm) (80 mm) 91.8 mms

080 mmtan ; 60.6445 mm

9 2 2 -6 -6

13 -3 2

(9 x 10 N m /C )(60 x 10 C)(50 x 10 C)

(91.8 x 10 m)F

F13 = 2564 N, 60.640

N of W

9 2 2 -6 -6

23 -3 2

(9 x 10 N m /C )(40 x 10 C)(50 x 10 C)

(45 x 10 m)F

= 8889 N, rightward.

Fx =F13 cos 60.640

+ F23 = - (2564 N) cos 60.640

+ 8889 N ; Fx = 7632 N

Fy = +F13 sin 60.640

+ 0 = (2564 N) sin 60.640

; Fy = 2235 N

2 2 2235 N(7632 N) (2235 N) ; tan7632 N

F ; FR = 7950 N, = 16.30

N of E.

*23-15. Three point charges q1 = + 8 C, q2 = -4 C, and q3 = +2 C are placed at the corners of

an equilateral triangle, 80 mm on each side as described by Fig. 23-15. What are the

magnitude and direction of the resultant force on the +8 C charge?

9 2 2 -6 -6

21 -3 2

(9 x 10 N m /C )(4 x 10 C)(8 x 10 C)

(80 x 10 m)F

F21 = 45.0 N, 600

S of E

9 2 2 -6 -6

31 -3 2

(9 x 10 N m /C )(2 x 10 C)(8 x 10 C)

(80 x 10 m)F

F31 = 22.5 N, 600

N of E; Fx = (22.5 N) cos 600

+ (45 N) cos 600

= 33.8 N

Fy = (22.5 N) sin 600

- (45 N) sin 600

= -19.5 N

s80 mm

q3 = -50 C-40 C45 mm

F1 F2

q2

q1

+60 C

600

60

80 mm

80 mm

q2 = -4 C+2 C

80 mmF1

q3

q1= 8 C


6/13


Edition

321

*23-15. (Cont.) 2 2 0-19.5 N

(33.8 N) ( 19.5 N) = 39.0 N; tan ; 3033.8 N

F

Resultant electric force: FR = 39.0 N, = 330.00

Challenge Problems

23-16. What should be the separation of two +5-uC charges so that the force of repulsion is 4 N?

9 2 2 -6 2' (9 x 10 N m /C )(5 x 10 C)

4.00 N

kqqr

F

; r = 23.7 cm

23-17. The repulsive force between two pith balls is found to be 60 N. If each pith ball carries a

charge of 8 nC, what is their separation?

9 2 2 -9 2

-6

' (9 x 10 N m /C )(8 x 10 C)

60 x 10 N

kqqr

F

; r = 98.0 mm

23-18. Two identical unknown charges experience a mutual repulsive force of 48 N when

separated by 60 mm. What is the magnitude of each charge?

2 2 2

2 9 2 2

(48 N)(0.060 m);

9 x 10 N m /C

kq Fr F q

r k

; q = 4.38 C

23-19. One object contains an excess of 5 x 1014

electrons and another has a deficiency of 4 x

1014

electrons. What is the force each exerts on the other if the objects are 30 mm apart?

Is it attraction or repulsion? ( 1e = 1.6 x 10-19

C, excess = -, deficiency = +. )

q1 = (5 x 1014

e)(1.6 x 10-19

C/e) = -80 C; q2 = (4 x 1014

e)(1.6 x 10-19

C/e) = +64 C

9 2 2 -6 -6

-3 2

(9 x 10 N m /C )(80 x 10 C)(64 x 10 C)

(30 x 10 m)F

; F = 5.12 x 104

N, attraction


7/13


Edition

322

23-20. If it were possible to put 1 C of charge on each of two spheres separated by a distance of

1 m, what would be the repulsive force in newtons.

9 2 2

2

(9 x 10 N m /C )(1 C)(1 C)

(1 m)F

; F = 9 x 109

N !

The coulomb is a very large unit for electrostatics applications.

23-21. How many electrons must be placed on each of two spheres separated by 4 mm in order

to produce a repulsive force of one 400 N?

2 2 2

2 9 2 2

(400 N)(0.004 m);

9 x 10 N m /C

kq Fr F q

r k

; q = 843 nC

-9

-19

1 e843 x 10 C

1.6 x 10 Cq

; q = 5.27 x 10

12electrons

23-22. A40-nC charge is placed 40 mm to the left of a +6-nC charge. What is the resultant

force on a12-nC charge place 8 mm to the right of the +6-nC charge?

9 2 2 -9 -9

1 -3 2

(9 x 10 N m /C )(40 x 10 C)(12 x 10 C)

(48 x 10 m)F

9 2 2 -9 -9

2 -3 2

(9 x 10 N m /C )(6 x 10 C)(12 x 10 C)

(8 x 10 m)F

;

Both to right, so FR = F1 + F2 = 1.88 mN10.1 mN; F = -8.25 mN, leftward

23-23. A 5-C charge is placed 6 cm to the right of a 2-C charge. What is the resultant force

on a

9 nC charge placed 2 cm to the left of the 2-C charge?

9 2 2 -9 -6

1 -2 2

(9 x 10 N m /C )(9 x 10 C)(2 x 10 C)

(2 x 10 m)F

F1 = +405 mN, to right

6 nC

40 mm

F1F2

q2q1

-40 nC 8 mm

q3 = -12 nC

5 C

2 cm

-9 nC6 cm

F1

F2

q2q1

2 C


8/13


Edition

323

9 2 2 -6 -9

2 -2 2

(9 x 10 N m /C )(5 x 10 C)(9 x 10 C)

(8 x 10 m)F

; F2= +63.3 mN, to right

Resultant force: FR = 405 mN + 63.3 mN; FR = 468 mN

23-24. An equal number of electrons is placed on two metal spheres 3.0 cm apart in air. How

many electrons are on each sphere if the resultant force is 4500 N?

2 2 2

2 9 2 2

(4500 N)(0.03 m);

9 x 10 N m /C

kq Fr F q

r k

; q = 21.2 C

-6

-19

1 e21.2 x 10 C

1.6 x 10 Cq

; q = 1.33 x 10

14electrons

23-25. A 4-nC charge is placed on a 4-g sphere that is free to move. A fixed 10-C point charge

is 4 cm away. What is the initial acceleration of the 4-C charge?

9 2 2 -9 -6

2 -2 2

(9 x 10 N m /C )(4 x 10 C)(10 x 10 C)

(4 x 10 m)F

; F2= 225 mN

0.225 N

0.004 kg

F

a m

a = 56.2 m/s

2

*23-26. What is the resultant force on a +2 C charge an equal distance of 60 mm from each of

two4-C charges that are 80 mm apart in air?

040 mmtan ; 48.260 mm

9 2 2 -6 -6

2 -3 2(9 x 10 N m /C )(4 x 10 C)(2 x 10 C)

(60 x 10 m)F

F2 = 20.0 N, 48.20

S of E

9 2 2 -6 -6

1 -3 2

(9 x 10 N m /C )(2 x 10 C)(4 x 10 C)

(60 x 10 m)F

; F1 = 20.0 N, 48.20

S of W

F1

40 mm

60 mm

q2 = -4 C-4 C

60 mm

F2

q3

q1= 2 C


9/13


Edition

324

*23-26. (Cont.) Fx = (20 N) cos 48.20

+ (20 N) cos 48.20

= 13.33 N - 13.33 N; Fx = 0

Fy = (20 N) sin 48.20

+ (20 N) sin 48.20

= 14.9 N + 14.9 N; Fy = -29.8 N

Resultant force: FR = 29.8 N, downward

*23-27. Two charges of +25 and +16 C are 80 mm apart. A third charge of +60 C is placed

between the other charges 30 mm from the +25 C charge. Find the resultant force on

the third charge?

9 2 2 -6 -6

1 -3 2

(9 x 10 N m /C )(60 x 10 C)(25 x 10 C)

(30 x 10 m)F

F1 = 15 kN, directed to the right

9 2 2 -6 -6

2 -3 2

(9 x 10 N m /C )(60 x 10 C)(16 x 10 C)

(50 x 10 m)F

; F13 = 3.46 kN, directed to left.

FR = F1 + F2 = 15 kN + 3.46 kN); FR = 11.5 kN, right.

*23-28. A 0.02-g pith ball is suspended freely. The ball is given a charge of +20 C and placed

0.6 m from a charge of +50 C. What will be the initial acceleration of the pith ball?

9 2 2 -6 -6

2

(9 x 10 N m /C )(20 x 10 C)(50 x 10 C)

(0.600 m)F

; F= 25.0 N

-5

25.0 N

2 x 10 kg

Fa

m ; a = 1.25 x 106 m/s

*23-29. A 4 C charge is located 6 cm from an 8 C charge. At what point on a line joining the

two charges will the resultant force be zero?

3 1 3 21 2 2 2

;(6 )

kq q kq qF F

x x

50 mm

q3 = 60 C 16 C

30 mm

F1F2

q2q1

25 C80 mm

q3q1

6 cm -xx

8 C4 CF1 = F2

q2


10/13


Edition

325

2 21 2 11 2 2 2

2

; ; x (6 )(6 )

q q qF F x

x x q

Take square root of both sides: 1

2

4 C(6 - x) = (6 - x); x = 0.707(6 - x)

8 C

qx

q

Solving for x, we obtain: x = 2.49 cm from 4-C charge

*23-30. A charge of +8 nC is placed 40 mm to the left of a14 nC charge. Where should a third

charge be placed if it is to experience a zero resultant force?

Considering the sign of the charges and

their magnitudes, the charge must be to theleft of the 8 nC charge as shown.

3 1 3 21 2 2 2

;(40 )

kq q kq qF F

x x

2 21 2 11 2 2 2

2

; ; x (40 )(40 )

q q qF F x

x x q

Take square root of both sides:

1

2

8 nC(40 x) = (40 x); x = 0.756(40+ x)

14 nC

qx

q

Solving for x, we obtain: x = 124 mm left of8 nC charge.

*23-31. A +16-C charge is 80 mm to the right of a +9 C. Where should a third charge be

placed so that the resultant force is zero?

3 1 3 21 2 2 2

;(80 )

kq q kq qF F

x x

2 21 2 11 2 2 2

2

; ; x (80 )(80 )

q q qF F xx x q

Take square root of both sides: 1

2

9 C(80 - x) = (80 - x); x = 0.750(80 - x)

16 C

qx

q

Solving for x, we obtain: x = 34.3 mm from 9-C charge

q3 q240 mmx

-14 nC8 nCF1 = F2

q1

80 mm - xq1 q2

x

+16 C9 C F1 = F2

q3


11/13


Edition

326

*23-32. Two 3-g spheres are suspended from a common point with two 80 mm light silk threads

of negligible mass. What charge must be placed on each sphere if their final positions

are 50 mm apart?

025 mmcos ; = 71.880 mm

Ty = T sin = mg

-3 2

0

(3 x 10 kg)(9.8 m/s )

sin sin 71.8

mgT

; T = 30.9 mN

Tx = T cos 71.80

= (30.9 mN) cos 71.80; Tx = 9.67 mN; Fx = 0: F = Tx

2 2 -3 -3 2

2 9 2 2

(9.67 x 10 N)(50 x 10 m)9.67 mN;

9 x 10 N m /C

kq Fr F q

r k

; q = 51.8 nC

Critical Thinking Questions

*23-33. A small metal sphere is given a charge of +40 C, and a second sphere 8 cm away is

given a charge of12 C. What is the force of attraction between them? If the two

spheres are allowed to touch and are then again placed 8 cm apart, what new electric

force exists between them? Is it attraction or repulsion?

9 2 2 -6 -6

2

(9 x 10 N m /C )(12 x 10 C)(40 x 10 C)

(0.080 m)F


When spheres touch, 6C of charge are neutralized,

leaving 28 C to be shared by two spheres, or

+14 C on each sphere. Now they are again separated:

9 2 2 -6 -6

2

(9 x 10 N m /C )(14 x 10 C)(14 x 10 C)

(0.080 m)F

;

F = 276 N, repulsion

FF

mg mg25 mm

T80 mm

14 C14 C

40 C -12 C

0.08 m

14 C 14 C

0.08 m


12/13


Edition

327

*23-34. The total charge on two metal spheres 50 mm apart is 80 C. If they repel each other

with a force of 800 N, what is the charge on each sphere?

q1 + q2 = 80 C; q2 = 80 Cq1

2

1 2 1 1 1 1

2 2 2

(80 C - ) (80 );

kq q kq q kq C kqF F

r r r

;

22

1 1(80 C)Fr

q qk

-3 22

1 19 2 2

(800 N)(50 x 10 m)(80 C)

(9 x 10 N m /C )q q

; q1

2(80 x 10

-6C)q1+ 222 x 10

-12C

2= 0

Solve the quadratic equation with a = 1, b = - 80 x 10-6, and c = 222 x 10

-12

q1= 77.1 C and q1= 2.89 C

Now q2 = 80 Cq1 yields the following : q2 = 2.89C and q2 = 77.1 C

Thus, one charge is 77.1 C and the other is 2.89 C

*23-35. Four small spheres are each given charges of q = +20 C and placed at the corners of a

square with sides of length 6 cm. Show that the resultant force on each charge has a

magnitude equal to 1914 N. What is the direction of the force? What will change if the

charges are each q = -20 C? (Like charges repel, so sign doesnt matter.)

2 2(6 cm) (6 cm) 8.485 cmR

9 2 2 -6 -6

1 -2 2

(9 x 10 N m /C )(20 x 10 C)(20 x 10 C)

(6 x 10 m)F

9 2 2 -6 -6

2 -2 2

(9 x 10 N m /C )(20 x 10 C)(20 x 10 C)

(8.485 x 10 m)

F

F1 = 1000 N; F2 = 500 N; For a square, the angle = 450

Fx = (1000 N) + (500 N) cos 450

+ 0 = 1354 N; Fy = 1000 N + (500 N) sin 450

= 1354 N

2 2(1354 N) (1354 N) ;F F = 1914 N, 450 away from center.

q1

50 mm

q2

q q

q

6 cm 6 cm

6 cm

6 cm

F2

F1

F1

R


13/13


Edition

328

*23-36. Two charges q1 and q2 are separated by a distance r. They experience a forceFat this

distance. If the initial separation is decreased by only 40 mm, the force between the

two charges is doubled. What was the initial separation?

1 2 1 2

2 2

2

( 40 mm)

kq q kq q

x x

;

2 2

2 1

( 40 mm)x x

x2

= 2(x40 mm)2

Take square root of both sides:

x = 1.414(x40 mm); x = 137 mm

*23-37. Two 8-g pith balls are suspended from silk threads 60 cm long and attached to a

common point. When the spheres are given equal amounts of negative charge, the balls

come to rest 30 cm apart. Calculate the magnitude of the charge on each pith ball.

00.15 mcos ; = 75.50.60 m

Ty = T sin = mg

-3 2

0

(8 x 10 kg)(9.8 m/s )

sin sin 75.5

mgT

; T = 81.0 mN

Tx = T cos 71.80

= (81.0 mN) cos 75.50

; Tx = 20.25 mN; Fx = 0: F = Tx

2 2 -4 2

2 9 2 2

(2.025 x 10 N)(0.30 m)20.25 mN;

9 x 10 N m /C

kq Fr F q

r k

; q = -450 nC

elct

FF

mg mg0.15 m

T 0.6 m

2F

F F

q1

x40 mm

q2

q1

x

q2

2F

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