Find a and b such that y=asinx+bcosx satisfies the differential equation y''+y=6sinx+cosx

Use the differential equation (1−x)y''−4xy'+5y=cosx(1-x)y′′-4xy′+5y=cosx to answer the following questions: What is the type of the...

Use the differential equation (1−x)y''−4xy'+5y=cosx(1-x)y′′-4xy′+5y=cosx to answer the following questions: What is the type of the differential equation? Ordinary differential equation Partial differential equation Is the differential equation linear or nonlinear? Linear Nonlinear What is the order of the differential equation?

Solve differential equation by using variation of parameter method y^''+y= cosx/sinx

Solve differential equation by using variation of parameter method y^''+y= cosx/sinx

Find a) the general solution of the differential equation y' = ( y^2 + 1 )...

Find a) the general solution of the differential equation y' = ( y^2 + 1 ) ( 2x + 3) b ) if the particular solution (if it exists) of the above mentioned differential equation that satisfies the initial condition y(0) = -1

A function y(t) satisfies the differential equation dy dt = y4 − 11y3 + 24y2. (a)...

A function y(t) satisfies the differential equation dy dt = y4 − 11y3 + 24y2. (a) What are the constant solutions of the equation? (Enter your answers as a comma-separated list.) y = (b) For what values of y is y increasing? (Enter your answer in interval notation.) y   (c) For what values of y is y decreasing? (Enter your answer in interval notation.) y  

Find the general solution of the equation • y″+ y = cosx i) The homogeneous solution...

Find the general solution of the equation • y″+ y = cosx i) The homogeneous solution yh(x) and yp(x) ii) The general solution using the initial conditions y(0)=1 and y'(0)=1

find the equation of the tangent line to the curve y=e^-3x • cosx at the point...

find the equation of the tangent line to the curve y=e^-3x • cosx at the point (0,1)

The deflection of a beam, y(x), satisfies the differential equation 8 * d 4y dx4   =  w(x)    on  0  ...

The deflection of a beam, y(x), satisfies the differential equation 8 * d 4y dx4   =  w(x)    on  0  <  x  <  1. Find y(x) in the case where w(x) is equal to the constant value 38, and the beam is embedded on the left (at x  =  0) and simply supported on the right (at x  =  1). Please Calculate all the constant in equation

a) Find the general solution of the differential equation y''-2y'+y=0 b) Use the method of variation...

a) Find the general solution of the differential equation y''-2y'+y=0 b) Use the method of variation of parameters to find the general solution of the differential equation y''-2y'+y=2e^t/t^3

Verify that the function y=x^2+c/x^2 is a solution of the differential equation xy′+2y=4x^2, (x>0). b) Find...

Verify that the function y=x^2+c/x^2 is a solution of the differential equation xy′+2y=4x^2, (x>0). b) Find the value of c for which the solution satisfies the initial condition y(4)=3. c=

(b) Solve the separable differential equation                   y'= (7e^-3x+2x^2-xcosx)/-6y^3             &nb

(b) Solve the separable differential equation                   y'= (7e^-3x+2x^2-xcosx)/-6y^3                                              (c) Solve the IVP              x(1-siny)dy=(cosx-cosy-y)dx .                              y(π/2)=0