Find the solution to the following equation using an appropriate integrating factor. Include largest interval solution...

consider the equation y*dx+(x^2y-x)dy=0. show that the equation is not exact. find an integrating factor o...

consider the equation y*dx+(x^2y-x)dy=0. show that the equation is not exact. find an integrating factor o the equation in the form u=u(x). find the general solution of the equation.

Solve the following equation using integrating factor. y dx + (2x − ye^y) dy = 0

Solve the following equation using integrating factor. y dx + (2x − ye^y) dy = 0

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

Find an appropriate integrating factor that will convert the given not exact differential equation cos ⁡...

Find an appropriate integrating factor that will convert the given not exact differential equation cos ⁡ x d x + ( 1 + 2 y ) sin ⁡ x d y = 0 into an exact one. Then solve the new exact differential equation.

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

Find an integrating factor and solve the O.D.E. 1 + (x/y − sin(y) *dy/dx = 0.

Find an integrating factor and solve the O.D.E. 1 + (x/y − sin(y) *dy/dx = 0.

Find an integrating factor for the equation that depends on one variable only. Verify that the...

Find an integrating factor for the equation that depends on one variable only. Verify that the equation that results from multiplying the equation below by your integrating factor is indeed exact. You do not need to solve the equation. 1 + (1 + t + y)dy/dt = 0

1. Consider the ODE dy/ dx = tanh(x) − y tanh(x). Use the integrating factor method...

1. Consider the ODE dy/ dx = tanh(x) − y tanh(x). Use the integrating factor method to find the general solution of the ODE. Find the general solution of the ODE using a different method. Do you get the same answer? Explain briefly.

engineering mathematics solve (3y2+2x+1)dx+(2xy+2y)dy=0 Find an integrating factor and solve the ode,tks.

engineering mathematics solve (3y2+2x+1)dx+(2xy+2y)dy=0 Find an integrating factor and solve the ode,tks.

1- Find the solution of the following equations. For each equation, 2- determine the type of...

1- Find the solution of the following equations. For each equation, 2- determine the type of the category that the equation belongs to. 1. y/x cos y/x dx − ( x/y sin y/x + cos y/x ) dy = 0 2. x(1 − y^2 )dx + y(8 − x^2 )dy = 0 3. (x^2 − x + y^2 )dx − (e^y − 2xy)dy = 0 4. 2x sin 3ydx + 3x^2 cos 3ydy = 0 5. (x ln x −...