consider the simplified linear system system, dS/dt= -αI dI/dt= αI For α > 0, find the...

Consider the linear system dY/dt=(0 2 −2 −1)Y (a) Find the general solution. (b) Find the...

Consider the linear system dY/dt=(0 2 −2 −1)Y (a) Find the general solution. (b) Find the particular solution with the initial value Y0=(−1,1).

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)

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.

Find a particular solution to the given linear system of differential equations: dx1/dt = 4x1 +...

Find a particular solution to the given linear system of differential equations: dx1/dt = 4x1 + 5x2 dx2/dt = x1 + 8x2 , with initial conditions x1(0) = 6, and x2(0) = 0.

Q)A population follows a generalized logistics growth given by. dx/dt=(rx/α) [1-(x/k)^α],α>0. 1)find the exact solution of...

Q)A population follows a generalized logistics growth given by. dx/dt=(rx/α) [1-(x/k)^α],α>0. 1)find the exact solution of this differential equation and show that the limiting population is still k. 2)what happen to the model if α→0 and α→-1?

1.Consider the following linear system in augmented matrix form [2 4−3 | 11 1 2−1 |...

1.Consider the following linear system in augmented matrix form [2 4−3 | 11 1 2−1 | 4] (a) Find the general solution of the linear system. (b) Find two particular solutions to this linear system.

Find the values of a and b for which the following system of linear equations is...

Find the values of a and b for which the following system of linear equations is (i) inconsistent; (ii) has a unique solution; (iii) has infinitely many solutions. For the case where the system has infinitely many solutions, write the general solution. x + y + z = a x + 2y ? z = 0 x + by + 3z = 2

Find the general solution to the following linear system around the equilibrium point: x '1 =...

Find the general solution to the following linear system around the equilibrium point: x '1 = 2x1 + x2 x '2 = −x1 + x2 (b) If the initial conditions are x1(0) = 1 and x2(0) = 1, find the exact solutions for x1 and x2. (c) Plot the exact vector field (precise amplitude of the vector) for at least 4 points around the equilibrium, including the initial condition. (d) Plot the solution curve starting from the initial condition x1(0)...

Consider the forced spring-mass system: d^2x/dt^2 + ω^2 x = A sin (ωt) (3) where in...

Consider the forced spring-mass system: d^2x/dt^2 + ω^2 x = A sin (ωt) (3) where in general ω ̸= ω0. (a) Find the general solution to equation (3). (b) Find the solution appropriate for the initial conditions x(0) = 0 and dx dt (0) = 0. (c) Let’s explore what happens as resonance is approached: Let ω = ω0 (1 + ϵ), where ϵ ≪ 1. Expand your solution in (b) using the idea of a Taylor series about ω0...

Consider the second-order homogeneous linear equation y''−6y'+9y=0. (a) Use the substitution y=e^(rt) to attempt to find...

Consider the second-order homogeneous linear equation y''−6y'+9y=0. (a) Use the substitution y=e^(rt) to attempt to find two linearly independent solutions to the given equation. (b) Explain why your work in (a) only results in one linearly independent solution, y1(t). (c) Verify by direct substitution that y2=te^(3t) is a solution to y''−6y'+9y=0. Explain why this function is linearly independent from y1 found in (a). (d) State the general solution to the given equation