Need some help with SERIES SOLUTION - 2nd ORDER EQUATION
For the differential equation,
a. Calculate the indicial equation for the power series solution (Answer in a quadratic polynomial in terms of c.)
b. Calculate the solutions of the indicial equation found above.
c. Calculate the point 
i. ORDINARY POINT
ii. REGULAR SINGULAR POINT
iii. IRREGULAR SINGULAR POINT
y-Σ@m(z _ 4)nte
Homework Answers
Add Answer to:
Need some help with SERIES SOLUTION - 2nd ORDER EQUATION For the differential equation, (1) a. Calculate the indicial equation for the power series solution (Answer in a quadratic polynomial...
(1 point) In this problem you will solve the differential equation or @() (1) Since P(a) 0 are not analytic at and 2()...
(1 point) In this problem you will solve the differential equation or @() (1) Since P(a) 0 are not analytic at and 2() is a singular point of the differential equation. Using Frobenius' Theorem, we must check that are both analytic a # 0. Since #P 2 and #2e(z) are analytic a # 0-0 is a regular singular point for the differential equation 28x2y® + 22,23, + 4y 0 From the result ol Frobenius Theorem, we may assume that 2822y"...
Engineering Mathematics IIA Page 3 of 8 3. Consider the second-order ordinary differential equation for y(x)...
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...
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 s...
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....
Consider the following differential equation Note: For each part below you must give your answers in terms of fractions...
Consider the following differential equation Note: For each part below you must give your answers in terms of fractions (as appropriate), not decimals (a) The above difterential equation has a singular point at-0. If the singular point at -0 is a regular singular point, then a power series for the solution y) can be found using the Frobenius method. Show that z-0 is a regular singular point by caliculating p/a)- 2(2) Since both of these functions are analytic at -0...
Consider the following differential equation Note: For each part below you must give your answers in terms of fractions...
Consider the following differential equation Note: For each part below you must give your answers in terms of fractions (as appropriate), not decimas. (a) The above differential equation has a singular point at z-0.I the singular point at z -0 is a regular singular point, then a power series for the solution ()can be found using the Frobenius method. Show that z-O is a regular singular point by calculating plz)-3 Since both of these functions are analytic at r -0...
(20 pts.) The Laguerre differential equation is ry" + (1 - )y' + Ay = 0....
(20 pts.) The Laguerre differential equation is ry" + (1 - )y' + Ay = 0. (a) Show that x = 0 is a regular singular point. (b) Determine the indicial equation, its roots, and the recurrence relation. (c) Find one solution (x > 0). Show that if = m, a positive integer, this solution reduces to a polynomial. When properly normalized, this polynomial is known as the Laguerre polynomial, L. (2).
Consider the following differential equation Note: For each part below you must give your answers in terms of fract...
Consider the following differential equation Note: For each part below you must give your answers in terms of fractions (as appropriate), not decimals (a) The above differential equation has a snaar point at x 0 . It the singular point at x-0 is a regular singular point, then a power series for the solution y(x) can be lound using the Frobenius method. Show that x = 0 is a regular sigar point by calculating: xp(x) = y(x) = Since both...
6: Problem 4 Previous Problem List Next (1 point) Consider the differential equation which has a ...
6: Problem 4 Previous Problem List Next (1 point) Consider the differential equation which has a regular singular point at x = O. The indicial equation for x = 0 is rt with roots (in increasing order) ri- Find the indicated terms of the following series solutions of the differential equation: (a) y = x,16+ and rE x+ The closed form of solution (a) is y
6: Problem 4 Previous Problem List Next (1 point) Consider the differential equation which...
2. Find power series solutions y z" Σ anr" of the following equation centered at 0...
2. Find power series solutions y z" Σ anr" of the following equation centered at 0 where-0 is a regular singular point. (a) Find the indicial equation for r, and solve for the two roots. Note that the indicial equation can be obtained from the coefficients of the term Pick the larger root and find the first seven terms of your power series solutions, i.e., (b)
Consider the following difterential equation Note: For each part below you must give your answers in terms of fractions...
Consider the following difterential equation Note: For each part below you must give your answers in terms of fractions (as appropriate), not decimals (a) The above differential equation has a singular point at z-0.I the singular point at z-0 is a regular singular point, then a power series for the solution y)can be found using the Frobenius method. Show that z-0is a regular singular point by calculating: zr(z) = 2g() Since both of these functions are analytic at z-0 the...
(1 point) In this problem you will solve the differential equation or @() (1) Since P(a) 0 are not analytic at and 2() is a singular point of the differential equation. Using Frobenius' Theorem, we must check that are both analytic a # 0. Since #P 2 and #2e(z) are analytic a # 0-0 is a regular singular point for the differential equation 28x2y® + 22,23, + 4y 0 From the result ol Frobenius Theorem, we may assume that 2822y"...
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...
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....
Consider the following differential equation Note: For each part below you must give your answers in terms of fractions (as appropriate), not decimals (a) The above difterential equation has a singular point at-0. If the singular point at -0 is a regular singular point, then a power series for the solution y) can be found using the Frobenius method. Show that z-0 is a regular singular point by caliculating p/a)- 2(2) Since both of these functions are analytic at -0...
Consider the following differential equation Note: For each part below you must give your answers in terms of fractions (as appropriate), not decimas. (a) The above differential equation has a singular point at z-0.I the singular point at z -0 is a regular singular point, then a power series for the solution ()can be found using the Frobenius method. Show that z-O is a regular singular point by calculating plz)-3 Since both of these functions are analytic at r -0...
(20 pts.) The Laguerre differential equation is ry" + (1 - )y' + Ay = 0. (a) Show that x = 0 is a regular singular point. (b) Determine the indicial equation, its roots, and the recurrence relation. (c) Find one solution (x > 0). Show that if = m, a positive integer, this solution reduces to a polynomial. When properly normalized, this polynomial is known as the Laguerre polynomial, L. (2).
Consider the following differential equation Note: For each part below you must give your answers in terms of fractions (as appropriate), not decimals (a) The above differential equation has a snaar point at x 0 . It the singular point at x-0 is a regular singular point, then a power series for the solution y(x) can be lound using the Frobenius method. Show that x = 0 is a regular sigar point by calculating: xp(x) = y(x) = Since both...
6: Problem 4 Previous Problem List Next (1 point) Consider the differential equation which has a regular singular point at x = O. The indicial equation for x = 0 is rt with roots (in increasing order) ri- Find the indicated terms of the following series solutions of the differential equation: (a) y = x,16+ and rE x+ The closed form of solution (a) is y
6: Problem 4 Previous Problem List Next (1 point) Consider the differential equation which...
2. Find power series solutions y z" Σ anr" of the following equation centered at 0 where-0 is a regular singular point. (a) Find the indicial equation for r, and solve for the two roots. Note that the indicial equation can be obtained from the coefficients of the term Pick the larger root and find the first seven terms of your power series solutions, i.e., (b)
Consider the following difterential equation Note: For each part below you must give your answers in terms of fractions (as appropriate), not decimals (a) The above differential equation has a singular point at z-0.I the singular point at z-0 is a regular singular point, then a power series for the solution y)can be found using the Frobenius method. Show that z-0is a regular singular point by calculating: zr(z) = 2g() Since both of these functions are analytic at z-0 the...
Most questions answered within 3 hours.
-
Events A and B are independent. Suppose event A occurs with
probability 0.63 and event B...
asked 2 minutes ago -
Rubies are essentially alumina Al2O3 with a contaminant of
chromium in the form of Cr2O3. A...
asked 9 minutes ago -
Write a full program that will accept
exactly three command line arguments
that can be interpreted as...
asked 11 minutes ago -
1.histones are proteins that make up nucleosomes. they bind to
the backbone of DNA in chromosomes....
asked 21 minutes ago -
What is the relationship between a variables value and their
probabilities as it is summarized by...
asked 29 minutes ago -
Balance Sheet
DR
CR
Cash
10000
AR
7000
Supplies
500
Equipment
5,000
Accum depreciation
...
asked 27 minutes ago -
Country
Continent
GDP (millions of US$)
Afghanistan
Asia
 
asked 30 minutes ago -
1) Use the Euclidean algorithm (write in pseudocode) to find the
greatest common divisor of 8...
asked 53 minutes ago -
Based upon the corporate proposal for this week, research three
different data storage options for your...
asked 54 minutes ago -
The equilibrium constant, Kp , for the following reaction is
1.04×10-2 at 548 K. NH4Cl(s) NH3(g)...
asked 1 hour ago -
During a recent budgeting discussion, the CFO at "NW Accounting
Services" proposed eliminating the marketing research...
asked 1 hour ago -
Block B has a mass of 3.80kg and is moving to the left at a
speed...
asked 1 hour ago