Mathematics, 21.07.2020 01:01 claaay1
Consider the differential equation 2y'' + ty' β 2y = 14, y(0) = y'(0) = 0. In some instances, the Laplace transform can be used to solve linear differential equations with variable monomial coefficients. Use Theorem 7.4.1., Theorem 7.4.1 Derivatives of Transforms If F(s) = β{f(t)} and n = 1, 2, 3, . . . , then β{tnf(t)} = (β1)n dn dsn F(s), to reduce the given differential equation to a linear first-order DE in the transformed function Y(s) = β{y(t)}. Solve the first-order DE for Y(s). Then find y(t) = &1{Y(s)}.
Answers: 1
Another question on Mathematics
Mathematics, 20.06.2019 18:04
2a+7+4ahow many terms? how many variables? any like terms? yes noif yes, which ones? what are the coefficients? any constants? yes noif yes, which ones? simplify the expression by combining like terms and constants: how many terms now?
Answers: 1
Mathematics, 21.06.2019 16:20
Abank gives 6.5% interest per year. what is the growth factor b in this situation?
Answers: 3
Mathematics, 21.06.2019 21:00
Find the perimeter of the triangle with vertices d(3, 4), e(8, 7), and f(5, 9). do not round before calculating the perimeter. after calculating the perimeter, round your answer to the nearest tenth.
Answers: 1
You know the right answer?
Consider the differential equation 2y'' + ty' β 2y = 14, y(0) = y'(0) = 0. In some instances, the La...
Questions
Health, 15.03.2020 22:50
Mathematics, 15.03.2020 22:50
Mathematics, 15.03.2020 22:51
Mathematics, 15.03.2020 22:51
Mathematics, 15.03.2020 22:51
Chemistry, 15.03.2020 22:51
Social Studies, 15.03.2020 22:52
Mathematics, 15.03.2020 22:52
