For differential equations please show all parts.
For part a)
An appropriate method from chapter 3 identifies the characteristic
equation
r^2 +9=0
where r =(+-)3i
Thus y=c1cos(3x)+c2sin(3x)
So I need help with the remaining parts
For differential equations please show all parts. For part a) An appropriate method from chapter ...
Chapter 5, Section 5.2, Question 2 In the Problem: • a. Seek power series solutions of the given differential equation about the given point xo; find the recurrence relation that the coefficients must satisfy. . b. Find the first four nonzero terms in each of two solutions yn and y2 (unless the series terminates sooner). • c. By evaluating the Wronskian W[y1, y2](xo), show that y, and y2 form a fundamental set of solutions. • d. If possible, find the...
1. (20 pts.) In the following Problems: (a) Seek power series solutions of the given differential equation about the given point xo ; find the recurrence relation. (b) Find the first four terms in each of two solutions yi and y2 (unless the series terminates sooner). (c) By evaluating the Wronskian W(y1, y2)(xo), show that yı and y2 form a fundamental set of solutions. (d) If possible, find the general term in each solution. i) y" +k+x+y = 0, 40...
7. Consider the differential equation (a) Show that z 0 is a regular singular point of the above differential equation (b) Let y(x) be a solution of the differential equation, where r R and the series converges for any E (-8,s), s > 0 Substitute the series solution y in to the differential equation and simplify the terms to obtain an expression of the form 1-1 where f(r) is a polynomial of degree 2. (c) Determine the values of r....
cnrn Consider the following differential equation. (1 + 3x?) y" – 2xy' – 12y = 0 (a) If you were to look for a power series solution about xo = 0, i.e., of the form Σ n=0 00 then the recurrence formula for the coefficients would be given by Ck+2 g(k) Ck, k > 2. Enter the function g(k) into the answer box below. (b) Find the solution to the above differential equation with initial conditions y(0) = 0 and...
(1 point) In this exercise we consider the second order linear equation y" + series solution in the form y = 0. This equation has an ordinary point at x = 0 and therefore has a power y = cmx". n=0 We learned how to easily solve problems like this in several different ways but here we want to consider the power series method. (1) Insert the formal power series into the differential equation and derive the recurrence relation Cn...
Use a power series centered about the ordinary point x0 = 0 to solve the differential equation (x − 4)y′′ − y′ + 12xy = 0 Find the recurrence relation and at least the first four nonzero terms of each of the two linearly inde- pendent solutions (unless the series terminates sooner). What is the guaranteed radius of convergence?
Engineering Mathematics IIA Page 3 of 8 3. Consider the second-order ordinary differential equation for y(x) given by (3) xy"2y' +xy = 0. (a) Determine whether = 0 is an ordinary point, regular singular, or an irregular a singular point of (3). (b) By assuming a series solution of the form y = x ama, employ the Method of m-0 Frobenius on (3) to determine the indicial equation for r. (c) Using an indicial value r = -1, derive the...
Chapter 5, Section 5.2, Additional Question 01 Consider the following differential equation (10 2 y 20y 0, o = 0. (a) Seek a power series solution for the given differential equation about the given point a; find the recurrence relation Enclose numerators and denominators in parentheses. For example, (a - b)/ (1+n). Use an asterisk, *, to indicate multiplication. For example, 2* f(x), a* x* (b)* (c* x + d) b*tan (a* 0) or e(a**) *b a1+ a+2 an. (b)...
please help to solve this differential equation. 3. Use power series solutions to solve (x+1)y"+(x-2)y' +y = 0. Center the power se- ries about the ordinary point o = 0. Write the solution as y = col first four terms..]+ ciſfirst four terms...). 4. Find the minimum radius of convergence for a power series solution to the ODE (22+2x+5)/' +10y = 0 centered about the ordinary point Xo = -6
Differential Equations for Engineers II Page 3 of 6 3. The interface y(x) between air and water in a time-independent open channel flow can be approximated with the second order ODE dạy ta’y = 0, d.r2 >0, (3) 4 marks where the parameter a’ is a measure of the mean speed of the flow. The flow is in the positive x direction (i.e. from left to right). (a) The point x = 0 is an ordinary point of equation (3)....