Identify the type of ODE below (ex. Separable, Linear, Exact, etc...) and then solve the initial...

solve for y: 1. dy/dx= xe^y separable 2. x(dy/dx)+3y=x^2 when y(5)=0 1st order linear

solve for y: 1. dy/dx= xe^y separable 2. x(dy/dx)+3y=x^2 when y(5)=0 1st order linear

Solve the 1st-order linear differential equation using an integrating fac- tor. For problem solve the initial...

Solve the 1st-order linear differential equation using an integrating fac- tor. For problem solve the initial value problem. For each problem, specify the solution interval. dy/dx−2xy=x, y(0) = 1

Solve the separable equation 3xy^2 dy/dx = x^2 + 1 given y(0) =5 I am getting...

Solve the separable equation 3xy^2 dy/dx = x^2 + 1 given y(0) =5 I am getting a general solution of cubed root x2/2+ln|x|+3c1 when I enter the initial conditions y(0)=5 the equation is undefined. How do deal with this? What would the final answer be? Thanks

Solve the given initial-value problem by finding, as in Example 4 of Section 2.4, an appropriate...

Solve the given initial-value problem by finding, as in Example 4 of Section 2.4, an appropriate integrating factor. (x2 + y2 − 7) dx = (y + xy) dy, y(0) = 1

Insert K = 3 [2x+ycos(kxy)]dx+[xcos(kxy)-2y]dy=0 Describe whether the first order type: Linear or exact and solve...

Insert K = 3 [2x+ycos(kxy)]dx+[xcos(kxy)-2y]dy=0 Describe whether the first order type: Linear or exact and solve to find the general Solution.

In this problem, you will solve the following first order linear ODE: y' + (1/x)y =...

In this problem, you will solve the following first order linear ODE: y' + (1/x)y = (2/x2 )+ 1 with y(1) = 1. a) Solve the complimentary equation b) Use the solution to the complimentary equation to find the general solution c) Use the initial conditions to find the specific solution

Solve the initial-value problem. (x2 + 1) dy dx + 3x(y − 1) = 0, y(0)...

Solve the initial-value problem. (x2 + 1) dy dx + 3x(y − 1) = 0, y(0) = 4

10.16: Write a user-defined MATLAB function that solves a first-order ODE by applying the midpoint method...

10.16: Write a user-defined MATLAB function that solves a first-order ODE by applying the midpoint method (use the form of second-order Runge-Kutta method, Eqs(10.65),(10.66)). For function name and arguments use [x,y]=odeMIDPOINT(ODE,a,b,h,yINI). The input argument ODE is a name for the function that calculates dy/dx. It is a dummy name for the function that is imported into odeMIDPOINT. The arguments a and b define the domain of the solution, h is step size; yINI is initial value. The output arguments, x...

1) Solve the given differential equation by finding, as in Example 4 of Section 2.4, an...

1) Solve the given differential equation by finding, as in Example 4 of Section 2.4, an appropriate integrating factor. (14 − 20y + e−5x) dx − 4 dy = 0 2) Solve the given initial-value problem. x dy/ dx + y = 2x + 1,   y(1) = 9 y(x) = Give the largest interval I over which the solution is defined. (Enter your answer using interval notation.) I = please show steps

Consider the initial value problem dy/dx= 6xy2 y(0)=1 a) Solve the initial value problem explicitly b)...

Consider the initial value problem dy/dx= 6xy2 y(0)=1 a) Solve the initial value problem explicitly b) Use eulers method with change in x = 0.25 to estimate y(1) for the initial value problem c) Use your exact solution in (a) and your approximate answer in (b) to compute the error in your approximation of y(1)