Solve the differential equation yy''= (1/2)(y')2 by using the substitution u=y'

Solve the differential equation y' = 1 +te^(-y) using substitution u= e^(y)

Solve the differential equation y' = 1 +te^(-y) using substitution u= e^(y)

Solve the differential equation: dy/dx - y =e^x*y^2 (Using u=y^-1)

Solve the differential equation: dy/dx - y =e^x*y^2 (Using u=y^-1)

solve the given differential equation by using an appropriate substitution. The DE is a Bernoulli equation....

solve the given differential equation by using an appropriate substitution. The DE is a Bernoulli equation. x * dy/dx + y = 1/y^2

The dependent variable y is missing in the given differential equation. Proceed as in Example 1...

The dependent variable y is missing in the given differential equation. Proceed as in Example 1 and solve the equation by using the substitution u = y' y'' + (y' )2 + 1 = 0

Solve the given differential equation by using an appropriate substitution. The DE is of the form...

Solve the given differential equation by using an appropriate substitution. The DE is of the form dy dx = f(Ax + By + C), which is given in (5) of Section 2.5. dy/dx = (x + y + 7)^2

1) Solve the given differential equation by using an appropriate substitution. The DE is a Bernoulli...

1) Solve the given differential equation by using an appropriate substitution. The DE is a Bernoulli equation. x dy/dx +y= 1/y^2 2)Consider the following differential equation. (25 − y2)y' = x2 Let f(x, y) = x^2/ 25-y^2. Find the derivative of f. af//ay= Determine a region of the xy-plane for which the given differential equation would have a unique solution whose graph passes through a point (x0, y0) in the region. a) A unique solution exists in the region consisting...

Consider the differential equation y′′+ 9y′= 0.( a) Let u=y′=dy/dt. Rewrite the differential equation as a...

Consider the differential equation y′′+ 9y′= 0.( a) Let u=y′=dy/dt. Rewrite the differential equation as a first-order differential equation in terms of the variables u. Solve the first-order differential equation for u (using either separation of variables or an integrating factor) and integrate u to find y. (b) Write out the auxiliary equation for the differential equation and use the methods of Section 4.2/4.3 to find the general solution. (c) Find the solution to the initial value problem y′′+ 9y′=...

Solve the following partial differential equation: yux + xuy = 0 u(0,y) = e- y^2

Solve the following partial differential equation: yux + xuy = 0 u(0,y) = e- y^2

Consider the Bernoulli equation dy/dx + y = y^2, y(0) = −1 Perform the substitution that...

Consider the Bernoulli equation dy/dx + y = y^2, y(0) = −1 Perform the substitution that turns this equation into a linear equation in the unknown u(x). Solve the equation for u(x) using the Laplace transform. Obtain the original solution y(x). Does it sound familiar?

Solve the following differential equation using the power series method. (1+x^2)y''-y'+y=0

Solve the following differential equation using the power series method. (1+x^2)y''-y'+y=0