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Math Mathematical Methods in the Physical Sciences

Continue the problem of Example 2 in the following way: Instead of using the explicit form of B ( k ) from ( 9.12 ) , leave it as an integral and write (9.13) in the form u ( x , y ) = 200 π ∫ 0 ∞ e − k y sin k x d k ∫ 0 1 sin k t d t . Change the order of integration and evaluate the integral with respect to k first. (Hint: Write the product of sines as a difference of cosines.) Now do the t integration and get (9.14).

Continue the problem of Example 2 in the following way: Instead of using the explicit form of B ( k ) from ( 9.12 ) , leave it as an integral and write (9.13) in the form u ( x , y ) = 200 π ∫ 0 ∞ e − k y sin k x d k ∫ 0 1 sin k t d t . Change the order of integration and evaluate the integral with respect to k first. (Hint: Write the product of sines as a difference of cosines.) Now do the t integration and get (9.14).

Mathematical Methods in the Physical Sciences

Mathematical Methods in the Physical Sciences

3rd Edition

ISBN: 9780471198260

Author: Mary L. Boas

Publisher: Wiley, John & Sons, Incorporated

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Chapter 13.9, Problem 6P

Continue the problem of Example 2 in the following way: Instead of using the explicit form of B ( k ) from ( 9.12 ) , leave it as an integral and write (9.13) in the form u ( x , y ) = 200 π ∫ 0 ∞ e − k y sin k x d k ∫ 0 1 sin k t d t .

Change the order of integration and evaluate the integral with respect to k first. (Hint: Write the product of sines as a difference of cosines.) Now do the t integration and get (9.14).

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Chapter 13.9, Problem 5P

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Chapter 13 Solutions

Mathematical Methods in the Physical Sciences

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