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

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

Consider the dynamical system below. dx/dt = -x+2y-4 dy/dt = -x-2y a.Sketch the nullclines for this...

Consider the dynamical system below. dx/dt = -x+2y-4 dy/dt = -x-2y a.Sketch the nullclines for this system b. Find the equilibrium point c. From the initial point (0,2), and using a Δt value of 0.2, compute the current position after one iteration.

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 following initial value problem: dx/dt + 7x/t = et^4, x(1) =2 (a) Find an...

Consider the following initial value problem: dx/dt + 7x/t = et^4, x(1) =2 (a) Find an integrating factor for the differential equation. (b) Use the integrating factor to solve the initial value problem

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)=

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

Solve the Initial value porblem dx/dt=[-4 -4, 4 -4]x x(0)=[9 6] give your solution in real form x1= x2=

Consider the second order differential equation d2/dt^2 x + 6 dx/dt + 10x = 0. Classify...

Consider the second order differential equation d2/dt^2 x + 6 dx/dt + 10x = 0. Classify the harmonic oscillator (undamped, underdamped, critically damped, over damped). Justify your answer.

Solve the initial value problems . 3. (d^2 y)/(dx^2 )=1-5x;y^' (0)=2,y(0)=4

Solve the initial value problems . 3. (d^2 y)/(dx^2 )=1-5x;y^' (0)=2,y(0)=4

Consider the following system of differential equations dx/dt = (x^2 + 2x + 1)(x^2 − 4x...

Consider the following system of differential equations dx/dt = (x^2 + 2x + 1)(x^2 − 4x + 4) dy/dt = xy − 1 Which of the following is not an equilibrium point of the above system? (A) (3, 1/3 ) (B) (−1, −1) (C) (1, 1) (D) (1, 3)

Solve the initial value problems. 1) x (dy/dx)+ 2y = −sinx/x , y(π) = 0. 2)...

Solve the initial value problems. 1) x (dy/dx)+ 2y = −sinx/x , y(π) = 0. 2) 3y”−y=0 , y(0)=0,y’(0)=1.Use the power series method for this one . And then solve it using the characteristic method Note that 3y” refers to it being second order differential and y’ first