Consider the following exact differential equation ? sin 2??? − (1 + ? 2 + cos2...

Find the solution to the separable differential equation dy = x cos2 y + sin x...

Find the solution to the separable differential equation dy = x cos2 y + sin x cos2 y satisfying π dx the initial condition y = 4 when x = π.

Consider the differential equation u ′′ + bu = sin^2 (2t). (a) For what value of...

Consider the differential equation u ′′ + bu = sin^2 (2t). (a) For what value of b does the solution show resonance? Clearly, explain your answer. Hint: sin2 x = 1−cos(2x) 2 (b) Consider the same differential equation but take the non-homogeneous term to be sin4 t. For what value(s) of b does the solution show resonance? You do not have to give an exact solution but you do have to explain clearly your thinking using the structure of the...

In this problem we consider an equation in differential form ???+???=0 The equation (6?^(1/?)+4?^3?^−3)??+(6?^2?^−2+4)??=0 in differential...

In this problem we consider an equation in differential form ???+???=0 The equation (6?^(1/?)+4?^3?^−3)??+(6?^2?^−2+4)??=0 in differential form ?˜??+?˜??=0 is not exact. Indeed, we have ?˜?−?˜?/M=______ is a function of ? alone. Namely we have μ(y)= Multiplying the original equation by the integrating factor we obtain a new equation ???+???=0 ?=____ ?=_____ Which is exact since ??=______ ??=_______ are equal. This problem is exact. Therefore an implicit general solution can be written in the form  ?(?,?)=?F where ?(?,?)=__________

The differential equation ?′′ + 4? = 0 has two solutions given by ?1 = Cos2?...

The differential equation ?′′ + 4? = 0 has two solutions given by ?1 = Cos2? and ?2 = Sin2?. (a): Check if the two solutions are linearly independent. (b): Solve the IVP: ?′′ + 4? = 0; ?(0) = 2, ?′(0) = 5.

1) ?1(?) = 5 , ?2(?) = sin2 ? y ?3(?) = cos2 ? (−∞,∞) it...

1) ?1(?) = 5 , ?2(?) = sin2 ? y ?3(?) = cos2 ? (−∞,∞) it is linearly dependent or independent. 2)Determine the Wronskian of the Function Set    ?1(?) = ?2 y ?2(?) = 1 − ?2, ?3(?) = 2 + ?2 (−∞,∞) 3) Be a solution of the differential equation?2?′′ − 3??′ + 5? = 0 Find a second solution using the order reduction formula. 4) Find the general solution of the differential equation.     ?′′′ + 3?′′...

Determine whether the given differential equation is exact. If it is exact, solve it. (If it...

Determine whether the given differential equation is exact. If it is exact, solve it. (If it is not exact, enter NOT.) (tan(x) − sin(x) sin(y)) dx + cos(x) cos(y) dy = 0

Find an appropriate integrating factor that will convert the given not exact differential equation cos ⁡...

Find an appropriate integrating factor that will convert the given not exact differential equation cos ⁡ x d x + ( 1 + 2 y ) sin ⁡ x d y = 0 into an exact one. Then solve the new exact differential equation.

) Check that each of the following functions solves the corresponding differential equation, by computing both...

) Check that each of the following functions solves the corresponding differential equation, by computing both the left-hand side and right-hand side of the differential equation. (a) y = cos2 (x) solves dy/dx = −2 sin(x) √y (b) y = 4x + 1/x solves x dy dx + 2/x = y (c) y = e x 2+3 solves dy/dx = 2xy (d) y = ln(1 + x 2 ) solves e y dy dx = 2x

A) In this problem we consider an equation in differential form ???+???=0Mdx+Ndy=0. The equation (5?^4?+4cos(2?)?^−4)??+(5?^5−3?^−4)??=0 in...

A) In this problem we consider an equation in differential form ???+???=0Mdx+Ndy=0. The equation (5?^4?+4cos(2?)?^−4)??+(5?^5−3?^−4)??=0 in differential form ?˜??+?˜??=0 is not exact. Indeed, we have My-Mx= ________ 5x^4-4(4)cos(2x)*y^(-5)-25x^4 (My-Mn)/M=_____ -4/y in function y alone. ?(?)= _____y^4 Multiplying the original equation by the integrating factor we obtain a new equation ???+???=0 where M=____ N=_____ which is exact since My=_____ Nx=______ This problem is exact. Therefore an implicit general solution can be written in the form  ?(?,?)=? where ?(?,?)=_________ Finally find the value...

Consider the following differential equation: dy/dx = −(3xy+y^2)/x^2+xy (a) Rewrite this equation into the form M(x,...

Consider the following differential equation: dy/dx = −(3xy+y^2)/x^2+xy (a) Rewrite this equation into the form M(x, y)dx + N(x, y)dy = 0. Determine if this equation is exact; (b) Multiply x on both sides of the equation, is the new equation exact? (c) Solve the equation based on Part (a) and Part (b).