What is the general solution of x(k) = et? x(k) means the kth derivative of x....

A nonhomogeneous equation and a particular solution are given. Find a general solution for the equation....

A nonhomogeneous equation and a particular solution are given. Find a general solution for the equation. y''+5y'+6y=24x^(2)+40x+8+12e^(x), y_p(x)=e^(x)+4x^(2) The general solution is y(x)= ​(Do not use​ d, D,​ e, E,​ i, or I as arbitrary constants since these letters already have defined​ meanings.)

Find general solution of the differential equations. primes donate derivative with respect to x throughout. y'=y+y^3...

Find general solution of the differential equations. primes donate derivative with respect to x throughout. y'=y+y^3 please explain each step

The differential equation dydx=72/(y^1/4+64x^2y^1/4) has an implicit general solution of the form F(x,y)=K, where K is...

The differential equation dydx=72/(y^1/4+64x^2y^1/4) has an implicit general solution of the form F(x,y)=K, where K is an arbitrary constant. In fact, because the differential equation is separable, we can define the solution curve implicitly by a function in the form F(x,y)=G(x)+H(y)=K Find such a solution and then give the related functions requested. F(x,y)=G(x)+H(y)=

Find the general solution to the system x" = 5x + 2y, y" = 2x +...

Find the general solution to the system x" = 5x + 2y, y" = 2x + 8y. Note that the system as stated above has second derivatives. Once you write it as a first-order system, the characteristic equation will be biquadratic (quadratic in λ2), so you can solve for λ2 and then take square roots to get the eigenvalues.

find general solution, primes denote derivatives with respect to x 12 y'' + 7y' - 10y...

find general solution, primes denote derivatives with respect to x 12 y'' + 7y' - 10y = 0 initial value problem y''-4y'+3y=0 y(0)=7, y'(0)=11 the particular solution given equation y''-y'-2y=3x+4

2)(20 pts.) Find the general solution of the non-homogeneous differential equation y^(4) −4y^(3) +15y′′ −22y′ +10y...

2)(20 pts.) Find the general solution of the non-homogeneous differential equation y^(4) −4y^(3) +15y′′ −22y′ +10y = 2cos2x+e^x. Determine the complementary solution yc and particular solution yp do not evaluate the coefficients of yp. (I find it harder to evaluate without coefficients can you please especially pay attention to that, I promise I will give thumbs up)

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?

Kx^2+x+9K=0 i) Evaluate the discriminant for this quadratic equation ii) What does it mean when we...

Kx^2+x+9K=0 i) Evaluate the discriminant for this quadratic equation ii) What does it mean when we say the quadratic equation has one repeated solution? iii) How does the discriminant enable us to tell wether our quadratic equation has one repeated solution? iv) Show all necessary work to find the value(s) of K that will cause this equation to have one repeated solution. v) Replace K with the value(s) you found in part iv and write the quadratic equations that has/have...

Let x(t) ∈ [0,1] be the fraction of maximum capacity of a live-music venue at time...

Let x(t) ∈ [0,1] be the fraction of maximum capacity of a live-music venue at time t (in hours) after the door opens. The rate at which people go into the venue is modeled by dx dt = h(x)(1−x), (1) where h(x) is a function of x only. 1. Consider the case in which people with a ticket but outside the venue go into it at a constant rate h = 1/2 and thus dx/dt = 1/2 (1−x). (a) Find...

1. Consider the general form of the utility for goods that are perfect complements. a) Why...

1. Consider the general form of the utility for goods that are perfect complements. a) Why won’t our equations for finding an interior solution to the consumer’s problem work for this kind of utility? Draw(but do not submit) a picture and explain why (4, 16) is the utility maximizing point if the utility is U(x, y) = min(2x, y/2), the income is $52, the price of x is $5 and the price of y is $2. From this picture and...