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In Problems 15–18 verify that the indicated function y = ϕ(x) is an explicit solution of the given first-order differential equation. Proceed as in Example 6, by considering ϕ simply as a function and give its domain. Then by considering ϕ as a solution of the differential equation, give at least one interval I of definition.
15.
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Chapter 1 Solutions
A First Course in Differential Equations with Modeling Applications (MindTap Course List)
- In Problems 1 through 6, express the solution of the given ini- tial value problem as a sum of two oscillations as in Eq. (8). Throughout, primes denote derivatives with respect to time t. In Problems 1–4, graph the solution function x(t) in such a way that you can identify and label (as in Fig. 3.6.2) its pe- riod. 3. x" + 100x = 225 cos 5t + 300 sin 5t; x(0) = 375, x'(0) = 0arrow_forwardshow that each function y = ƒ(x) is a solution of theaccompanying differential equation.arrow_forwardIn Problems 1 through 6, express the solution of the given ini- tial value problem as a sum of two oscillations as in Eq. (8). Throughout, primes denote derivatives with respect to time t. In Problems 1–4, graph the solution function x(t) in such a way that you can identify and label (as in Fig. 3.6.2) its pe- riod. 1. x" + 9x = 10 cos 2t; x(0) = x'(0) = 0arrow_forward
- Calculus For The Life SciencesCalculusISBN:9780321964038Author:GREENWELL, Raymond N., RITCHEY, Nathan P., Lial, Margaret L.Publisher:Pearson Addison Wesley,