Y'''+Y'=0 Let v(t)=y'(t), write the differential equation satisfied by v.

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′=...

Consider the differential equation x′=[2 −2 4 −2], with x(0)=[1 1] Solve the differential equation wherex=[x(t)y(t)]...

Consider the differential equation x′=[2 −2 4 −2], with x(0)=[1 1] Solve the differential equation wherex=[x(t)y(t)] please write as neat as possible better if typed and explain clearly with step by step work

Solve the differential equation using method of Undetermined Coefficients. y'' + y = t^3, y(0) =...

Solve the differential equation using method of Undetermined Coefficients. y'' + y = t^3, y(0) = 1, y'(0) = -1

Write a matlab script file to solve the differential equation dy/dt = 1 − y^3 with...

Write a matlab script file to solve the differential equation dy/dt = 1 − y^3 with initial condition y(0)=0, from t=0 to t=10. matlab question

dx + (x cot y + sin y) dy=0, Solve the differential equation and write your...

dx + (x cot y + sin y) dy=0, Solve the differential equation and write your answer without negative exponents.

Find the general solution of the differential equation y′′+9y=11sec2(3t), 0<t<π6.

Find the general solution of the differential equation y′′+9y=11sec2(3t), 0<t<π6.

Consider the differential equation L[y] = y′′ + p(t)y′ + q(t)y = f(t) + g(t), and...

Consider the differential equation L[y] = y′′ + p(t)y′ + q(t)y = f(t) + g(t), and suppose L[yf] = f(t) and L[yg] = g(t). Explain why yp = yf + yg is a solution to L[y] = f + g. Suppose y and y ̃ are both solutions to L[y] = f + g, and suppose {y1, y2} is a fundamental set of solutions to the homogeneous equation L[y] = 0. Explain why y = C1y1 + C2y2 + yf...

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

Consider the differential equation y′′(t)+4y′(t)+5y(t)=74exp(−8t), with initial conditions y(0)=12, and y′(0)=−44. A)Find the Laplace transform of...

Consider the differential equation y′′(t)+4y′(t)+5y(t)=74exp(−8t), with initial conditions y(0)=12, and y′(0)=−44. A)Find the Laplace transform of the solution Y(s).Y(s). Write the solution as a single fraction in s. Y(s)= ______________ B) Find the partial fraction decomposition of Y(s). Enter all factors as first order terms in s, that is, all terms should be of the form (c/(s-p)), where c is a constant and the root p is a constant. Both c and p may be complex. Y(s)= ____ + ______...

y′′(t) +ty′(t)−2y(t) = 2, y(0) = 0,y′(0) = 0 . This is a non-homogeneous linear second-order...

y′′(t) +ty′(t)−2y(t) = 2, y(0) = 0,y′(0) = 0 . This is a non-homogeneous linear second-order differential equation withnon-constantcoefficients andnotof Euler type. (a) Write the Laplace transform of the Initial Value Problem above. (b) Find a closed formula for the Laplace transformL(y(t)). (c) Find the unique solutiony(t) to the Initial Value Problem