College Physics (Instructor's)
College Physics (Instructor's)
11th Edition
ISBN: 9781305965317
Author: SERWAY
Publisher: CENGAGE L
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Chapter 15, Problem 16P

Panicle A of charge 3.00 × 10−4 C is at the origin, particle B of charge −6.00 × 10−4 C is at (4.00 m, 0), and panicle C of charge 1.00 × 10−4 C is at (0, 3.00 m). (a) What is the x-component of the electric force exerted by A on C? (b) What is the y-component of the force exerted by A on C? (c) Find the magnitude of the force exerted by B on C. (d) Calculate the x-component of the force exerted by B on C. (e) Calculate the y-component of the force exerted by B on C. (f) Sum the two x-components to obtain the resultant x-component of the electric force acting on C. (g) Repeat part (f) for the y-component. (h) Find the magnitude and direction of the resultant electric force acting on C.

(a)

Expert Solution
Check Mark
To determine
The x component of electric force exerted by A on C.

Answer to Problem 16P

Solution: The x component of electric force exerted by A on C is zero.

Explanation of Solution

Given info: The charges are qA=3.00×104C and qB=6.00×104C . The charges are placed at origin and (4.00 m, 0) respectively. The charge qC=1.00×104C is placed at (0, 3.000 m).

The electric force is given in the diagram below,

College Physics (Instructor's), Chapter 15, Problem 16P

Thex component of electric force exerted by A on C is zero. This is because the force exerted by A on C will be along y axis only.

Conclusion:

The x component of electric force exerted by A on C is zero.

(b)

Expert Solution
Check Mark
To determine
The y component of electric force exerted by A on C.

Answer to Problem 16P

Solution: The y component of electric force exerted by A on C is 30.0 N.

Explanation of Solution

Given info: The charges are qA=3.00×104C and qB=6.00×104C . The charges are placed at origin and (4.00 m, 0) respectively. The charge qC=1.00×104C is placed at (0, 3.000 m).

Formula to calculate the y component of electric force exerted by A on C is,

(FAC)y=keqAqCrAC2

  • ke is the Coulomb constant.
  • rAC is the distance between the charges A and C.

Substitute 8.99×109N.m2/C2 for ke , 3.00×104C for qA , 1.00×104C for qC , 3.00 m for rAC .

(FAC)y=(8.99×109N.m2/C2)(3.00×104C)(1.00×104C)(3.00m)2=30.0N

Conclusion:

The y component of electric force exerted by A on C is 30.0 N.

(c)

Expert Solution
Check Mark
To determine
The magnitude of electric force exerted by B on C.

Answer to Problem 16P

Solution: The magnitude of electric force exerted by B on C is 21.6 N.

Explanation of Solution

Given info: The charges are qA=3.00×104C and qB=6.00×104C . The charges are placed at origin and (4.00 m, 0) respectively. The charge qC=1.00×104C is placed at (0, 3.000 m).

Formula to calculate themagnitude of electric force exerted by B on C is,

FBC=keqBqCrBC2

  • ke is the Coulomb constant.
  • rBC is the distance between the charges A and C.

Substitute 8.99×109N.m2/C2 for ke , 1.00×104C for qC , 6.00×104C for qB , 5.00 m for rBC .

FBC=(8.99×109N.m2/C2)(6.00×104C)(1.00×104C)(5.00m)2=21.6N

Conclusion:

The magnitude of electric force exerted by B on C is 21.6 N.

(d)

Expert Solution
Check Mark
To determine
The x component of electric force exerted by B on C.

Answer to Problem 16P

Solution: The x component of electric force exerted by B on C is 17.3 N.

Explanation of Solution

Given info: The charges are qA=3.00×104C and qB=6.00×104C . The charges are placed at origin and (4.00 m, 0) respectively. The charge qC=1.00×104C is placed at (0, 3.000 m).

Thex component of electric force exerted by B on C is,

(FBC)x=FBCcosθ

  • θ is the angle between AB and BC.

The value of cosθ is,

cosθ=rABrBC

From the above equations,

(FBC)x=FBCrABrBC

Substitute 21.6 N for FBC , 4.00 m for rAB and 5.00 m for rBC .

(FBC)x=(21.6N)(4.00m5.00m)=17.3N

Conclusion:

The x component of electric force exerted by B on C is 17.3 N.

(e)

Expert Solution
Check Mark
To determine
The y component of electric force exerted by B on C.

Answer to Problem 16P

Solution: The y component of electric force exerted by B on C is -13.0 N.

Explanation of Solution

Given info: The charges are qA=3.00×104C and qB=6.00×104C . The charges are placed at origin and (4.00 m, 0) respectively. The charge qC=1.00×104C is placed at (0, 3.000 m).

They component of electric force exerted by B on C is,

(FBC)y=FBCsinθ

The value of sinθ is,

sinθ=rACrBC

From the above equations,

(FBC)y=FBCrACrBC

Substitute 21.6 N for FBC , 3.00 m for rAC and 5.00 m for rBC .

(FBC)y=(21.6N)(3.00m5.00m)=13.0N

Conclusion:

The y component of electric force exerted by B on C is -13.0 N.

(f)

Expert Solution
Check Mark
To determine
The resultant x component of electric force on C.

Answer to Problem 16P

Solution: The resultant x component of electric force on C is 17.3 N.

Explanation of Solution

Given info: The charges are qA=3.00×104C and qB=6.00×104C . The charges are placed at origin and (4.00 m, 0) respectively. The charge qC=1.00×104C is placed at (0, 3.000 m).

The resultant x component of electric force on C is,

(FR)x=(FAC)x+(FBC)x

Substitute 0 N for (FAC)x and 17.3 N for (FBC)x .

(FR)x=(0 N)+(17.3 N)=17.3 N

Conclusion:

The resultant x component of electric force on C is 17.3 N.

(g)

Expert Solution
Check Mark
To determine
The resultant y component of electric force on C.

Answer to Problem 16P

Solution: The resultant y component of electric force on C is 17.0 N.

Explanation of Solution

Given info: The charges are qA=3.00×104C and qB=6.00×104C . The charges are placed at origin and (4.00 m, 0) respectively. The charge qC=1.00×104C is placed at (0, 3.000 m).

The resultant y component of electric force on C is,

(FR)y=(FAC)y+(FBC)y

Substitute 30.0 N for (FAC)y and -13 N for (FBC)y .

(FR)y=(30 N)+(-13 N)=17.0 N

Conclusion:

The resultant x component of electric force on C is 17.0 N.

(h)

Expert Solution
Check Mark
To determine
The resultant electric force on C.

Answer to Problem 16P

Solution: The resultant electric force on C is 24.3 N directed at an angle of 44.5ο above the x axis.

Explanation of Solution

Given info: The charges are qA=3.00×104C and qB=6.00×104C . The charges are placed at origin and (4.00 m, 0) respectively. The charge qC=1.00×104C is placed at (0, 3.000 m).

The resultant of electric force on C is,

FR=(FR)x2+(FR)y2

Substitute 17.3 N for (FR)x and 17.0 N for (FR)y .

FR=(17.3N)x2+(17.0N)y2=24.3N

The direction of resultant electric force on C is,

θ=tan1((FR)y(FR)x)

Substitute 17.3 N for (FR)x and 17.0 N for (FR)y .

θ=tan1(17.0N17.3N)=44.5°

Conclusion:

The resultant electric force on C is 24.3 N directed at an angle of 44.5° above the x axis

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