Solve the Initial value porblem dx/dt=[-4 -4, 4 -4]x x(0)=[9 6] give your solution in real...

Solve the system dx/dt = [ row 1: -5 -1 row 2: 1 -5] x with...

Solve the system dx/dt = [ row 1: -5 -1 row 2: 1 -5] x with x(0) = [ row 1: 3 row 2: 1] give your solution in real form: x1 = and x2 =

solve the given initial value problem dx/dt=7x+y x(0)=1 dt/dt=-6x+2y y(0)=0 the solution is x(t)= and y(t)=

solve the given initial value problem dx/dt=7x+y x(0)=1 dt/dt=-6x+2y y(0)=0 the solution is x(t)= and y(t)=

so we have a matrix: assume [[row]. [row]], dx/dt = [[6, -2], [20, -6]]x. which is...

so we have a matrix: assume [[row]. [row]], dx/dt = [[6, -2], [20, -6]]x. which is with x(0) = [[2], [3]] what is the solution in real form x1= ? and x2 = ? Also what is the trajectory look like?

dx/dt=(1/4)x^3 -x, c(0)=1 compute the solution to this initial value problem. An algebraically implicit solution for...

dx/dt=(1/4)x^3 -x, c(0)=1 compute the solution to this initial value problem. An algebraically implicit solution for x(t) is acceptanle x(0)=1

Solve the IVP dx/dt=[8 0, 16 0]x x(0)=[-5 6] x(t)=[ ? , ?]

Solve the IVP dx/dt=[8 0, 16 0]x x(0)=[-5 6] x(t)=[ ? , ?]

solve the ivp dx/dt=[-3,-3] x              [ 3,-3] x(0)=[3]           [ 9]

solve the ivp dx/dt=[-3,-3] x              [ 3,-3] x(0)=[3]           [ 9]

Consider the following linear system (with real eigenvalue) dx/dt=-2x+7y dy/dt=x+4y find the specific solution coresponding to...

Consider the following linear system (with real eigenvalue) dx/dt=-2x+7y dy/dt=x+4y find the specific solution coresponding to the initial values (x(0),y(0))=(-5,3)

Initial value problem : Differential equations: dx/dt = x + 2y dy/dt = 2x + y...

Initial value problem : Differential equations: dx/dt = x + 2y dy/dt = 2x + y Initial conditions: x(0) = 0 y(0) = 2 a) Find the solution to this initial value problem (yes, I know, the text says that the solutions are x(t)= e^3t - e^-t and y(x) = e^3t + e^-t and but I want you to derive these solutions yourself using one of the methods we studied in chapter 4) Work this part out on paper to...

consider the initial value problems dx/dt=(1/4)x^3 -x , x(0)=1 compute the equilibrium solutions for this DE...

consider the initial value problems dx/dt=(1/4)x^3 -x , x(0)=1 compute the equilibrium solutions for this DE and classify the stability for each one

Solve the initial value problem. d^2y/dx^2= -3 csc^2 x; y' (pi/4)=0; y(pi/2)=0 The solution is y=____.

Solve the initial value problem. d^2y/dx^2= -3 csc^2 x; y' (pi/4)=0; y(pi/2)=0 The solution is y=____.