Given each of the equations below, find dy/dx: (a)x^2y=x^2+y^2 (b) (x+1)/x= 1−xy (c) siny=x^2−1

Solve the given differential equations: a) dy/dx=(x+1)^2 b) (x+1)dy/dx-xy=x^2+x

Solve the given differential equations: a) dy/dx=(x+1)^2 b) (x+1)dy/dx-xy=x^2+x

Determine the type of below equations and solve it. a-)(sin(xy)+xycos(xy)+2x)dx+(x2cos(xy)+2y)dy=0 b-)(t-a)(t-b)y’-(y-c)=0     a,b,c are constant.

Determine the type of below equations and solve it. a-)(sin(xy)+xycos(xy)+2x)dx+(x2cos(xy)+2y)dy=0 b-)(t-a)(t-b)y’-(y-c)=0     a,b,c are constant.

Homogeneous Differential Equations: dy/dx = xy/x^(2) - y^(2) dy/dx = x^2 + y^2 / 2xy

Homogeneous Differential Equations: dy/dx = xy/x^(2) - y^(2) dy/dx = x^2 + y^2 / 2xy

Find a general solution: (dy/dx) = (x+xy^2)/2y

Find a general solution: (dy/dx) = (x+xy^2)/2y

(61). (Bernoulli’s Equation): Find the general solution of the following first-order differential equations:(a) x(dy/dx)+y= y^2+ln(x) (b)...

(61). (Bernoulli’s Equation): Find the general solution of the following first-order differential equations:(a) x(dy/dx)+y= y^2+ln(x) (b) (1/y^2)(dy/dx)+(1/xy)=1

solve (x^2+2y^2)dx/dy = xy

solve (x^2+2y^2)dx/dy = xy

Find a particular solution to each of the following differential equations with the given initial condition:...

Find a particular solution to each of the following differential equations with the given initial condition: A) dy/dx=ysinx/1+y^2, y(0)=1 B)dy/dx=xy ln x, y(1)=3 C)xy(1+x^2) dy/dx=(1+y^2), y(1)=0

Use Green’s theorem to evaluate the integral: ∫(-x^2y)dx +(xy^2)dy where C is the boundary of the...

Use Green’s theorem to evaluate the integral: ∫(-x^2y)dx +(xy^2)dy where C is the boundary of the region enclosed by y= sqrt(9 − x^2) and the x-axis, traversed in the counterclockwise direction.

Consider the system [ x' = -2y & y' = 2x] . Use dy/dx to find...

Consider the system [ x' = -2y & y' = 2x] . Use dy/dx to find the curves y = y(x). Draw solution curves in the xy phase plane. What type of equilibrium point is the origin?

Use the Laplace transform to solve the given system of differential equations. dx/dt=x-2y dy/dt=5x-y x(0) =...

Use the Laplace transform to solve the given system of differential equations. dx/dt=x-2y dy/dt=5x-y x(0) = -1, y(0) = 6