Explanation Definition used: The first order linear equation is of the form d y d t + p ( t ) y = g ( t ) where p and g are function of the independent variable t . Formula used: The integrating factor μ ( t ) of the first order differential equation d y d t + p ( t ) y = g ( t ) is given as μ ( t ) = exp ∫ p ( t ) d t and the solution of the differential equation is given by y = 1 μ ( t ) [ ∫ μ ( s ) g ( s ) d s + c ] . Calculation: The given differential equation is y ′ + 2 3 y = 1 − 1 2 t with the initial value y ( 0 ) = y 0 . By comparing the equation y ′ + 2 3 y = 1 − 1 2 t with its standard form d y d t + p ( t ) y = g ( t ) , it is obtained that p ( t ) = 2 3 and g ( t ) = 1 − 1 2 t . Compute the integrating factor μ ( t ) of the differential equation y ′ + 2 3 y = 1 − 1 2 t as follows. μ ( t ) = exp ∫ p ( t ) d t = exp ∫ 2 3 d t = e 2 3 t Now the solution of the differential equation y ′ + 2 3 y = 1 − 1 2 t can be obtained by substituting the integrating factor in the formula y = 1 μ ( t ) [ ∫ μ ( s ) g ( s ) d s + c ] as follows. y = 1 μ ( t ) [ ∫ μ ( s ) g ( s ) d s + c ] = 1 e 2 t 3 [ ∫ e 2 t 3 ( 1 − t 2 ) d t + c ] = e − 2 t 3 [ ∫ e 2 t 3 d t − 1 2 ∫ t e 2 t

10th Edition

ISBN: 9780470458327

Author: William E. Boyce, Richard C. DiPrima

Publisher: Wiley, John & Sons, Incorporated

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Chapter 2.1, Problem 28P

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The value of y0 for which the solution of the initial value differential equation y′+23y=1−12t, y(0)=y0 touches the t-axis but not crossing it.

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Chapter 2.1, Problem 27P

Chapter 2.1, Problem 29P

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The value of y 0 for which the solution of the initial value differential equation y ′ + 2 3 y = 1 − 1 2 t , y ( 0 ) = y 0 touches the t -axis but not crossing it.

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The value of y0 for which the solution of the initial value differential equation y′+23y=1−12t, y(0)=y0 touches the t-axis but not crossing it.

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Chapter 2 Solutions