Chapter 3: Q3.14P (page 140)

For the infinite slot (Ex. 3.3), determine the charge density $σ (y)$ on the strip at $x = 0$ , assuming it is a conductor at constant potential $v_{0}$ .

Short Answer

Expert verified

The expression for the charge density on the strip at $x = 0$ is $σ (y) = \frac{4 ε_{0} V_{0}}{a} \sum_{n = 1, 3 .5 \dots} \sin (\frac{nπy}{a})$ .

Step by step solution

Define functions

Write the expression for the potential $V (x, y)$ in the infinite slot.

$V (x, y) = \frac{4 V_{0}}{π} \sum_{n = 1, 3, 5, \dots .} \frac{1}{n} e^{- nπx} \sin \frac{nπy}{a}$ …… (1)

Here, $v_{0}$ is the constant potential along the conductor, $x$ is the x-coordinate, $y$ is the y-coordinate and is the positive integer.

Determine charge density

Derive the charge density in the terms of electric potential.

$σ = - ε_{0} \frac{\partial V}{\partial n}$

$σ (y) = - ε_{0} {[\frac{\partial V}{\partial x}]}_{x - 0}$ …… (2)

Substitute $\frac{4 V_{0}}{π} \sum_{n} \frac{1}{n} e^{- n_{i, 5}} \sin \frac{nπy}{a}$ for $V (x, y)$ in equation (2).

$σ (y) = - {ε_{0} \frac{\partial}{\partial x} \{\frac{4 V_{0}}{π} \sum \frac{1}{n} e^{\frac{nπx}{a}} \sin (\frac{nπy}{a})\}|}_{x - 0}$

$= - {ε_{0} \frac{4 V_{0}}{π} \frac{\partial}{\partial x} \{\sum \frac{1}{n} e^{nπx} \sin (\frac{nπy}{a})\}|}_{x = 0}$

$= {ε_{0} \frac{4 V_{0}}{π} \frac{1}{n} (\frac{nπ}{a}) \sum e^{nπx} \sin (\frac{nπy}{a})|}_{x = 0}$

$σ (y) = \frac{4 ε_{0} V_{0}}{a} \sum_{n - 1, 3, 5 \dots} \sin (\frac{nπy}{a})$

Hence, the expression for the charge density on the strip at $x = 0$ is $σ (y) = \frac{4 ε_{0} V_{0}}{a} \sum_{n - 1, 3, 5 \dots} \sin (\frac{nπy}{a})$ .

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For the infinite slot (Ex. 3.3), determine the charge density $σ (y)$ on the strip at $x = 0$ , assuming it is a conductor at constant potential $v_{0}$ .

Short Answer

Step by step solution

Define functions

Determine charge density

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For the infinite slot (Ex. 3.3), determine the charge density σ(y) on the strip at x=0, assuming it is a conductor at constant potential v0.

Short Answer

Step by step solution

Define functions

Determine charge density

One App. One Place for Learning.

Most popular questions from this chapter

Recommended explanations on Physics Textbooks

Fields in Physics

Electricity and Magnetism

Rotational Dynamics

Magnetism and Electromagnetic Induction

Dynamics

Classical Mechanics

Study anywhere. Anytime. Across all devices.

For the infinite slot (Ex. 3.3), determine the charge density $σ (y)$ on the strip at $x = 0$ , assuming it is a conductor at constant potential $v_{0}$ .