Determine for which values of m the function ϕ(x)=e^mx is a solution to the given equation....

Determine ϕ′′(x0), ϕ′′′(x0) and ϕi⁢v(x0) for the given point x0 if y=ϕ(x) is a solution of...

Determine ϕ′′(x0), ϕ′′′(x0) and ϕi⁢v(x0) for the given point x0 if y=ϕ(x) is a solution of the given initial value problem. y′′+x⁢y′+y=0, y(0)=5, y′(0)=4

determine if the xy-plane for which the given differential equation would have a unique solution whose...

determine if the xy-plane for which the given differential equation would have a unique solution whose graph passes through the point (x0,y0) in the region dy/dx=y^(2/3) x(dy/dx)=y

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 −...

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. x(1 − y^2 )dx + y(8 − x^2 )dy = 0 2. (x^2 − x + y^2 )dx − (e^y − 2xy)dy = 0

The indicated function y1(x) is a solution of the given differential equation. Use reduction of order...

The indicated function y1(x) is a solution of the given differential equation. Use reduction of order or formula (5) in Section 4.2, y2 = y1(x) e−∫P(x) dx y 2 1 (x) dx     (5) as instructed, to find a second solution y2(x). y'' + 36y = 0;    y1 = cos(6x) y2 = 2) The indicated function y1(x) is a solution of the given differential equation. Use reduction of order or formula (5) in Section 4.2, y2 = y1(x) e−∫P(x) dx y 2 1...

Use implicit differentiation to determine dy/dx given the equation e^x⋅y^3+x^4=sin(y) dy/dx=

Use implicit differentiation to determine dy/dx given the equation e^x⋅y^3+x^4=sin(y) dy/dx=

Determine an equation for the tangent to each function at the point with the given x-coordinate....

Determine an equation for the tangent to each function at the point with the given x-coordinate. a) f(x) = tanx , x = π/4 b) f(x) = 6tanx - tan2x, x = 0 Doing limits using the formula y = tanx --> dy/dx = sec^2x

The indicated function y1(x) is a solution of the given differential equation. Use reduction of order...

The indicated function y1(x) is a solution of the given differential equation. Use reduction of order or formula (5) in Section 4.2, y2 = y1(x) e−∫P(x) dx y 2 1 (x) dx        (5) as instructed, to find a second solution y2(x). y'' + 64y = 0;    y1 = cos(8x) y2 =

1.Given that y = x + tan−1 y , find dy dx 2.Determine the equation of...

1.Given that y = x + tan−1 y , find dy dx 2.Determine the equation of the tangent line to the curve y = (2 + x) e −x at the point (0, 2)

1) Solve the given differential equation by separation of variables. exy dy/dx = e−y + e−6x...

1) Solve the given differential equation by separation of variables. exy dy/dx = e−y + e−6x − y 2) Solve the given differential equation by separation of variables. y ln(x) dx/dy = (y+1/x)^2 3) Find an explicit solution of the given initial-value problem. dx/dt = 7(x2 + 1),  x( π/4)= 1