A continuous – time system is represented by the following differential equation, d²y(t) +7dy(t) dt2 + 6y(t) = 2 x(t). dt Compute the output response of the system where x(t) = 6 u(t) and the initial condition dy(t) on the system are given by y(0) = 1 and = 1 when t = 0. Apply the second order dt differential equation method.
A continuous – time system is represented by the following differential equation, d²y(t) +7dy(t) dt2 + 6y(t) = 2 x(t). dt Compute the output response of the system where x(t) = 6 u(t) and the initial condition dy(t) on the system are given by y(0) = 1 and = 1 when t = 0. Apply the second order dt differential equation method.
A continuous – time system is represented by the following differential equation, d²y(t) +7dy(t) dt2 + 6y(t) = 2 x(t). dt Compute the output response of the system where x(t) = 6 u(t) and the initial condition dy(t) on the system are given by y(0) = 1 and = 1 when t = 0. Apply the second order dt differential equation method.
Please use second order
differential equation method. And show all the calculations steps
With integration, one of the major concepts of calculus. Differentiation is the derivative or rate of change of a function with respect to the independent variable.
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