(a) To determine To find: The value of time τ at which the population gets doubled. Explanation Formula used: The loan to be paid is computed on solving the differential equation S ′ ( t ) = r S ( t ) + k where r is the interest rate accrued per month and n is the number of compounding periods. Calculation: It is given that the differential equation is d y d t = ( 0.5 + sin t ) y 5 where y is the population at any time t . By formula, the differential equation becomes d y d t − ( 0.5 + sin t ) 5 y = 0 Obtain the integrating factor as, u ( t ) = e ∫ ( − ( 0.5 + sin t ) 5 ) d t = e − ( 0.5 t − cos t ) 5 . Obtain the solution as, y = 1 u ( t ) ( ∫ k × u ( t ) d t + C ) = 1 e − ( 0.5 t − cos t ) 5 ∫ ( 0 ) ( e − ( 0.5 t − cos t ) 5 ) d t + C e − ( 0.5 t − cos t ) 5 = 0 + C e − ( 0.5 t − cos t ) 5 = C e ( 0.5 t − cos t ) 5 Substitute the initial condition y ( 0 ) = 1 and obtain C . y ( 0 ) = C e ( 0.5 ( 0 ) − cos ( 0 ) ) 5 C e − 1 5 = 1 C = 1 e − 1 5 C = e 1 5 Therefore, the solution of the differential equation is y = e 1 5 e ( 0 (b) To determine The value of doubling time τ when the growth rate is replaced is to be determined. (c) To determine To find: The value of time τ at which the population gets doubled when the change in growth rate is made. (d) To determine To Plot: The graphs of all the solutions obtained in part (a), (b) and (c).

10th Edition

ISBN: 9780470458327

Author: William E. Boyce, Richard C. DiPrima

Publisher: Wiley, John & Sons, Incorporated

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Chapter 2.3, Problem 14P

(a)

To determine

To find: The value of time τ at which the population gets doubled.

(b)

To determine

The value of doubling time τ when the growth rate is replaced is to be determined.

(c)

To determine

To find: The value of time τ at which the population gets doubled when the change in growth rate is made.

(d)

To determine

To Plot: The graphs of all the solutions obtained in part (a), (b) and (c).

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Chapter 2.3, Problem 13P

Chapter 2.3, Problem 15P

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Elementary Differential Equations

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