(a) Explanation Write the equation for the electric field in terms of components. E → = E x i ^ + E y j ^ + E z k ^ (I) Here, E → is the vector form of electric field, E x , E y , E z are the x, y, z components of electric field and i ^ , j ^ , k ^ are unit vectors. Write the expression for the x-components of electric field. E x = − ∂ V ∂ x (II) Here, ( ∂ V / ∂ x ) is the rate of change of potential with x-position. Write the expression for the y-components of electric field. E y = − ∂ V ∂ y (III) Here, ( ∂ V / ∂ y ) is the rate of change of potential with y-position. Write the expression for the z-components of electric field. E z = − ∂ V ∂ z (IV) Here, ( ∂ V / ∂ z ) is the rate of change of potential with y-position. Rewrite the expression for the (II), (III) and (IV). E → = [ − ∂ V ∂ x ] i ^ + [ − ∂ V ∂ y ] j ^ + [ − ∂ V ∂ z ] k ^ (V) Conclusion: Substitute, 5 x − 3 x 2 y + 2 y z 2 for V in Equation (V) to find E (b) To determine The numerical value of electric field.

Principles of Physics: A Calculus-Based Text

5th Edition

ISBN: 9781133104261

Author: Raymond A. Serway, John W. Jewett

Publisher: Cengage Learning

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Chapter 20, Problem 23P

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The expression for the components of electric field.

(b)

To determine

The numerical value of electric field.

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Chapter 20, Problem 22P

Chapter 20, Problem 24P

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Principles of Physics: A Calculus-Based Text

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The expression for the components of electric field.

Solution Summary: The author explains the equation for the electric field in terms of components. Write the expression for x, y, and z-components.

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