solve the partially decoupled system; plot corresponding soln trajectory; calc. equil

[mfm12a]

In this problem you will use analytic methods to determine the general solution for the given de-coupled system. Compare your results by hand with the results from Maple dsolve(). Plot thecorresponding solution trajectory in the phase plane. Calculate any equilibrium points of the systemand find the solution that corresponds to (x0, y0) = (0, 1).
Solve the partially decoupled system using substitution.

dx/dt = 2x − 8y2


dy/dt = -3y

 

[Deleted member 4993]

In this problem you will use analytic methods to determine the general solution for the given de-coupled system. Compare your results by hand with the results from Maple dsolve(). Plot thecorresponding solution trajectory in the phase plane. Calculate any equilibrium points of the systemand find the solution that corresponds to (x0, y0) = (0, 1).
Solve the partially decoupled system using substitution.

dx/dt= 2x − 8y2


dy/dt = -3y

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[stapel]

In this problem you will use analytic methods to determine the general solution for the given de-coupled system. Compare your results by hand with the results from Maple dsolve(). Plot the corresponding solution trajectory in the phase plane. Calculate any equilibrium points of the system and find the solution that corresponds to (x0, y0) = (0, 1).

Solve the partially decoupled system using substitution.

dx/dt= 2x − 8y^2


dy/dt = -3y

Are you completely unable to get started on any of your long list of exercises? Are you in a class, or are you trying to teach yourself?