(14 points) Free Response Question. Show work to get credit. Find the Melaurin for the following...
(1 point) Consider the Fourier sine series: ) 14, sin( f(z) a. Find the Fourier coefficients for the function f(x)-9, 0, TL b. Use the computer to draw the Fourier sine series of f(x), for x E-15, 151, showing clearly all points of convergence. Also, show the graphs with the partial sums of the Fourier series using n = 5 and n = 20 terms.
(1 point) Consider the Fourier sine series: ) 14, sin( f(z) a. Find the Fourier...
3. This question is a long free-response question. Show your work for each part of the question. (12 points, suggested time 25 minutes) Students have a battery of emf with negligible internal resistance and many identical resistive heating elements and will connect a circuit so the heating elements can be used to heat some water. Each of the heating elements has resistance. (a) First the students consider connecting the heating elements in series with the battery, as shown above. One...
Please show how to solve
this.
ord -Exam2 FallzuT4verzaprn.docx SHOW WORK TO GET FULL CREDIT Problem 7) Suppose that a certain random variable, X, has the following cumulative distribution function: 0 x <1 0.7 1x < 4 127 i)Determine P(X>1) (6 points) ii)Determine P(4 sXs 6) (6 points)
mechanical engineering
analysis help, get from problem to solution, pls show all work,
thanks.
Problem 2. Find the Fourier series approximation of the following periodic function f(x), where the first two leading cosine and sine functions must be included. f(x) Angle sum formulas for sine / cosine functions sin(A + B) = sin A cos B + cos A sin B sin(A – B) = sin A cos B – cos A sin B TT cos(A + B) = cos...
Consider the series following series of functions ' sin(nx) 3 n-1 a) Show that the series is absolutely and uniformly convergent on the real axis. Let f be its summation function n sin(nx) b) Show that f E C(R) and that 1 cos(nx) f'(x)= 2-1 c) Show that 「 f#072821) f(x)dx = k=0
Consider the series following series of functions ' sin(nx) 3 n-1 a) Show that the series is absolutely and uniformly convergent on the real axis. Let f...
Question 18 For the following questions, you must show all work to receive full credit. Not yet answered Points out of 30.00 1 Vx da (a) Evaluate Jo 1 + x3 P Flag question poo e dx (b) Evaluate the improper integral Jo e2x + 1 er integrat (cº de toi cel Evaluate , * con lo) sin(as) de (c) Evaluate os? (x) sin? (x) dx (d) Evaluate the dx lo (e) Show work to calculate/justify why the following integral...
6. [1/2 Points] DETAILS PREVIOUS ANSWERS SCALCET8 11.10.013. MY NOTES ASK YOUR TE Find the Maclaurin series for f(x) using the definition of a Maclaurin series. [Assume that f has a power series expansion. Do not show that R,(x) > 0.] f(x) = sin(x) f(x) = 3 ( xan (-1)" (2n)! n = 0 x Find the associated radius of convergence R. R = ♡ Need Help? Read It Talk to a Tutor
Can someone walk me through how to do question 2 with all the
proper work shown?
Horne, vork # 3 MİATH 1206 Show all work! 1. (10 pts) Find the Taylor series expansions for f(x) = sin at z = 0 and x = 3, Find the radius of convergence for these series. 2. (5 pts) Find the Taylor series expansion for f(x) = 1/z at 2. 3. (5 pts) Find the sum of the serics rA 5nn! 4" (5...
Let f(z-y2 sin(x+-) Answer the following. Show and explain your work. (a) Find the Taylor polynomial of order 4. generated by f(x) at zo (b) Describe the MacLaurin series of f (with or without the sigma notation). (Hint: What pattern do the derivatives of f at z-0 follow?) (c) Does the MacLaurin series of f converges absolutely, converges conditionally or diverges at -1?
Let f(z-y2 sin(x+-) Answer the following. Show and explain your work. (a) Find the Taylor polynomial of...
Free Response Section: Must legibly show all work for full credit (each correct step is worth points). Clearly box in your final answer(s) as required by the problem. 11. For each of the following write either the ground-state electron configuration for the atom or ion, or determine the neutral atom described by the electron configuration. (5 pts.) a. Rh3+ [Ar]4s23d104p+ [Ne]3s23p3 e. As3-