6.(10pts) Find an explicit solution of the IVP. (Show work.) dy/dt = y2 - y2(e5t) ,...

Differential Equations Solve for the IVP ( y2 - 2 sin (2t) )dt + ( 1...

Differential Equations Solve for the IVP ( y2 - 2 sin (2t) )dt + ( 1 + 2ty)dy = 0 y (0)= 1

find the solution to the following ivp dy/dy-2ty=6t^2e^(t^2),y(0)=5

find the solution to the following ivp dy/dy-2ty=6t^2e^(t^2),y(0)=5

Find the general solution of the system dx/dt = 2x + 3y dy/dt = 5y Determine...

Find the general solution of the system dx/dt = 2x + 3y dy/dt = 5y Determine the initial conditions x(0) and y(0) such that the solutions x(t) and y(t) generates a straight line solution. That is y(t) = Ax(t) for some constant A.

MATLAB Create an M-File for this IVP, dy/dt = t^2 - 16*sin(t), y(0) = 0 and...

MATLAB Create an M-File for this IVP, dy/dt = t^2 - 16*sin(t), y(0) = 0 and create an anonymous function g so that it evaluates the slope field at points of our new ODE. Ensure you use commands of using a for loop to plot the exact solution for the IVP in this exercise as well as the Euler approximations for Δt=0.5, Δt=0.25, and Δt=0.125 all on the same graph.

dy/dt = x- (1/2)y dy/dt =2x +3y a)matrix form b)find eigenvalues/eigenvectors c)genreal solution

dy/dt = x- (1/2)y dy/dt =2x +3y a)matrix form b)find eigenvalues/eigenvectors c)genreal solution

Show that the given functions y1 and y2 are solutions to the DE. Then show that...

Show that the given functions y1 and y2 are solutions to the DE. Then show that y1 and y2 are linearly independent. write the general solution. Impose the given ICs to find the particular solution to the IVP. y'' + 25y = 0; y1 = cos 5x; y2 = sin 5x; y(0) = -2; y'(0) = 3.

find the solution for the DE dy/dt +ty^3 +y/t = 0 answer explicitly if passible

find the solution for the DE dy/dt +ty^3 +y/t = 0 answer explicitly if passible

Given : dy/dt = -100000y + 99999 e^(-t) a. If y(0)=0 use the explicit Euler method...

Given : dy/dt = -100000y + 99999 e^(-t) a. If y(0)=0 use the explicit Euler method to obtain a solution using a step size of 0.1. Carry out 2 iterations. What do you notice? b. Estimate the minimum step size required to maintain stability using the explicit Euler method. b. Repeat the problem using the implicit Euler method to obtain a solution from t=0 to 2 using a step size of 0.1.

Find a solution of x dy dx = y2 − y that passes through the indicated...

Find a solution of x dy dx = y2 − y that passes through the indicated points. (a) (0, 1) y = (b) (0, 0) y = (c) 1/ 3 , 1 /3 y = (d) 2, 1/ 8 y =

Show that the IVP dy/dx = xy^(3/2) y(2) = 0 has a solution but it may...

Show that the IVP dy/dx = xy^(3/2) y(2) = 0 has a solution but it may or may not be unique (i.e. the Existence and Uniqueness Theorem doesn’t imply uniqueness). (Remark: Make sure to draw an appropriate rectangular region.)