How can I prove that a set of solutions to a given differential equation forms a...

Verify that the given functions form a fundamental set of solutions of the differential equation on...

Verify that the given functions form a fundamental set of solutions of the differential equation on the indicated interval. Form the general solution. 1.) y'' − 4y = 0; cosh 2x, sinh 2x, (−∞,∞) 2.) y^(4) + y'' = 0; 1, x, cos x, sin x (−∞,∞)

Consider the differential equation x^2y′′ − 3xy′ − 5y = 0. Note that this is not...

Consider the differential equation x^2y′′ − 3xy′ − 5y = 0. Note that this is not a constant coefficient differential equation, but it is linear. The theory of linear differential equations states that the dimension of the space of all homogeneous solutions equals the order of the differential equation, so that a fundamental solution set for this equation should have two linearly fundamental solutions. • Assume that y = x^r is a solution. Find the resulting characteristic equation for r....

Consider the following statements. (i) The differential equation y′ + P(x) y  =  Q(x) has the...

Consider the following statements. (i) The differential equation y′ + P(x) y  =  Q(x) has the form of a linear differential equation. (ii) All solutions to y′  =  e^(sin(x^2 + y)) are increasing functions throughout their domain. (iii) Solutions to the differential equation y′  =   f (y) may have different tangent slope for points on the curve where y  =  3, depending on the value of x

Given that x =0 is a regular singular point of the given differential equation, show that...

Given that x =0 is a regular singular point of the given differential equation, show that the indicial roots of the singularity do not differ by an integer. Use the method of Frobenius to obtain to linearly independent series solutions about x = 0. Form the general solution on (0, ∞) 3xy”+(2 – x)y’ – y = 0

Prove the equation is solution of the given differential equation. 1.) y= 5sin5x+5cos5x y"+25y=0

Prove the equation is solution of the given differential equation. 1.) y= 5sin5x+5cos5x y"+25y=0

Series Solutions of Ordinary Differential Equations For the following problems solve the given differential equation by...

Series Solutions of Ordinary Differential Equations For the following problems solve the given differential equation by means of a power series about the given point x0. Find the recurrence relation; also find the first four terms in each of two linearly independed sollutions (unless the series terminates sooner). If possible, find the general term in each solution. y"+k2x2y=0, x0=0, k-constant

Determine whether the given set ?S is a subspace of the vector space ?V. A. ?=?2V=P2,...

Determine whether the given set ?S is a subspace of the vector space ?V. A. ?=?2V=P2, and ?S is the subset of ?2P2 consisting of all polynomials of the form ?(?)=?2+?.p(x)=x2+c. B. ?=?5(?)V=C5(I), and ?S is the subset of ?V consisting of those functions satisfying the differential equation ?(5)=0.y(5)=0. C. ?V is the vector space of all real-valued functions defined on the interval [?,?][a,b], and ?S is the subset of ?V consisting of those functions satisfying ?(?)=?(?).f(a)=f(b). D. ?=?3(?)V=C3(I), and...

1. If x1(t) and x2(t) are solutions to the differential equation x" + bx' + cx...

1. If x1(t) and x2(t) are solutions to the differential equation x" + bx' + cx = 0 is x = x1 + x2 + c for a constant c always a solution? Is the function y= t(x1) a solution? Show the works 2. Write sown a homogeneous second-order linear differential equation where the system displays a decaying oscillation.

7. Given that x =0 is a regular singular point of the given differential equation, show...

7. Given that x =0 is a regular singular point of the given differential equation, show that the indicial roots of the singularity do not differ by an integer. Use the method of Frobenius to obtain two linearly independent series solutions about x = 0. Form the general solution on (0, ∞) 2xy”- y’ + y = 0

Consider an axiomatic system that consists of elements in a set S and a set P...

Consider an axiomatic system that consists of elements in a set S and a set P of pairings of elements (a, b) that satisfy the following axioms: A1 If (a, b) is in P, then (b, a) is not in P. A2 If (a, b) is in P and (b, c) is in P, then (a, c) is in P. Given two models of the system, answer the questions below. M1: S= {1, 2, 3, 4}, P= {(1, 2), (2,...