A small portion near the center of a large thin conducting plait is shown magnified at right. The portion shown has a net charge Q 1 and each side has an area A 1 . Write an expression for the charge density on each side of the conducting plate.

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Answer 1

Textbook Question

Chapter 5.5, Problem 1aT

A small portion near the center of a large thin conducting plait is shown magnified at right. The portion shown has a net charge Q 1 and each side has an area A 1 .

Write an expression for the charge density on each side of the conducting plate.

Chapter 5.5, Problem 1aT, A small portion near the center of a large thin conducting plait is shown magnified at right. The

Expert Solution & Answer

To determine

The expression for charge density on each side of the conducting plate.

Explanation of Solution

Introduction:

The charge density is the ratio the charge distributed over a surface area. The expression for the charge density is given by,

σ=QA

The distribution of the charge on the plate is shown below,

Tutorials in Introductory Physics, Chapter 5.5, Problem 1aT

Figure 1

Now, because plate in uniform and charge on both the sides is same. So, the charge density on both the sides of the plate if the area of the sides is Al will also be same that is given by,

σleft=σright=12QlAl

Conclusion:

Therefore, the expression for the charge density on each side of the plate is 12QlAl .

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01:47

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Answer 2

Textbook Question

Chapter 5.5, Problem 1aT

A small portion near the center of a large thin conducting plait is shown magnified at right. The portion shown has a net charge Q 1 and each side has an area A 1 .

Write an expression for the charge density on each side of the conducting plate.

Chapter 5.5, Problem 1aT, A small portion near the center of a large thin conducting plait is shown magnified at right. The

Expert Solution & Answer

To determine

The expression for charge density on each side of the conducting plate.

Explanation of Solution

Introduction:

The charge density is the ratio the charge distributed over a surface area. The expression for the charge density is given by,

σ=QA

The distribution of the charge on the plate is shown below,

Tutorials in Introductory Physics, Chapter 5.5, Problem 1aT

Figure 1

Now, because plate in uniform and charge on both the sides is same. So, the charge density on both the sides of the plate if the area of the sides is Al will also be same that is given by,

σleft=σright=12QlAl

Conclusion:

Therefore, the expression for the charge density on each side of the plate is 12QlAl .

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

01:47

Answer 3

Textbook Question

Chapter 5.5, Problem 1aT

A small portion near the center of a large thin conducting plait is shown magnified at right. The portion shown has a net charge Q 1 and each side has an area A 1 .

Write an expression for the charge density on each side of the conducting plate.

Chapter 5.5, Problem 1aT, A small portion near the center of a large thin conducting plait is shown magnified at right. The

Expert Solution & Answer

To determine

The expression for charge density on each side of the conducting plate.

Explanation of Solution

Introduction:

The charge density is the ratio the charge distributed over a surface area. The expression for the charge density is given by,

σ=QA

The distribution of the charge on the plate is shown below,

Tutorials in Introductory Physics, Chapter 5.5, Problem 1aT

Figure 1

Now, because plate in uniform and charge on both the sides is same. So, the charge density on both the sides of the plate if the area of the sides is Al will also be same that is given by,

σleft=σright=12QlAl

Conclusion:

Therefore, the expression for the charge density on each side of the plate is 12QlAl .

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

01:47

Answer 4

Textbook Question

Chapter 5.5, Problem 1aT

A small portion near the center of a large thin conducting plait is shown magnified at right. The portion shown has a net charge Q 1 and each side has an area A 1 .

Write an expression for the charge density on each side of the conducting plate.

Chapter 5.5, Problem 1aT, A small portion near the center of a large thin conducting plait is shown magnified at right. The

Expert Solution & Answer

To determine

The expression for charge density on each side of the conducting plate.

Explanation of Solution

Introduction:

The charge density is the ratio the charge distributed over a surface area. The expression for the charge density is given by,

σ=QA

The distribution of the charge on the plate is shown below,

Tutorials in Introductory Physics, Chapter 5.5, Problem 1aT

Figure 1

Now, because plate in uniform and charge on both the sides is same. So, the charge density on both the sides of the plate if the area of the sides is Al will also be same that is given by,

σleft=σright=12QlAl

Conclusion:

Therefore, the expression for the charge density on each side of the plate is 12QlAl .

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

01:47

Answer 5

Textbook Question

Answer 6

Textbook Question

Answer 7

Expert Solution & Answer

To determine

The expression for charge density on each side of the conducting plate.

Explanation of Solution

Introduction:

The charge density is the ratio the charge distributed over a surface area. The expression for the charge density is given by,

σ=QA

The distribution of the charge on the plate is shown below,

Tutorials in Introductory Physics, Chapter 5.5, Problem 1aT

Figure 1

Now, because plate in uniform and charge on both the sides is same. So, the charge density on both the sides of the plate if the area of the sides is Al will also be same that is given by,

σleft=σright=12QlAl

Conclusion:

Therefore, the expression for the charge density on each side of the plate is 12QlAl .

Answer 8

Expert Solution & Answer

To determine

The expression for charge density on each side of the conducting plate.

Explanation of Solution

Introduction:

The charge density is the ratio the charge distributed over a surface area. The expression for the charge density is given by,

σ=QA

The distribution of the charge on the plate is shown below,

Tutorials in Introductory Physics, Chapter 5.5, Problem 1aT

Figure 1

Now, because plate in uniform and charge on both the sides is same. So, the charge density on both the sides of the plate if the area of the sides is Al will also be same that is given by,

σleft=σright=12QlAl

Conclusion:

Therefore, the expression for the charge density on each side of the plate is 12QlAl .

Answer 9

Expert Solution & Answer

Answer 10

Expert Solution & Answer

Answer 11

To determine

The expression for charge density on each side of the conducting plate.

Answer 12

Explanation of Solution

Introduction:

The charge density is the ratio the charge distributed over a surface area. The expression for the charge density is given by,

σ=QA

The distribution of the charge on the plate is shown below,

Tutorials in Introductory Physics, Chapter 5.5, Problem 1aT

Figure 1

Now, because plate in uniform and charge on both the sides is same. So, the charge density on both the sides of the plate if the area of the sides is Al will also be same that is given by,

σleft=σright=12QlAl