Hope this will help you to understand the problem.Thank you.
answer 10 please 9. Say we have a function (x+5) (x-6). If we start Newton-Ra what are the next two x values? x-2, 10·Given the function in # 9 a. Is there a minimum or maximum on the interval -2...
answer 10 please 9. Say we have a function (x+5) (x-6). If we start Newton-Ra what are the next two x values? x-2, 10·Given the function in # 9 a. Is there a minimum or maximum on the interval -2 to 1 b. What is the value? (analytical solution) Describe how you could use the bisection method or newton to find it numerically just describe the method in some detail. c.
rt) dt, where f is the function whose graph is shown. /, 0 Let g(x)- f(t) 2 (a) At what values of x do the local maximum and minimum values of g occur? Xmin xmin = xmax = Xmax (smaller x-value) (larger x-value) (smaller x-value) (larger x-value) (b) Where does g attain its absolute maximum value? (c) On what interval is g concave downward? (Enter your answer using interval notation.) (d) Sketch the graph of g. 0.5 -0.5 2 46...
2 6, 9、19/ 1,12 '12,13,16,16, 16,18,3‘ = 12.5 4 IQR=46 Question #1 (15 Marks) a) (8 Marks) Answer the following questions with True or False. 1) Every basic solution in the assignment problem is necessarily degenerate. 2) The assignment problem cannot be solved using the transportation technique. maximum or minimum. If a single-variable function has two local minima, it must have at least one local 4) maximum. 5) The Golden Section Search method gives better results than the Fibanocci Search...
please explain how to do step 5 in matlab commands. med at x=c. 2 The first derivative Ne Scr We investigate the function f(x) 4 12x3+9x2. >> x-linspace (-3,3) >> y-41x.^4-12*x.^3 >> plot (x,y), grid 9*x."2; + A plot over the interval I-3,3] reveals an apparent "flat section"' with no visible relati extrema. To produce a plot that reveals the true structure of the graph, we replot over the interval [-1,2]: >> x=linspace (-1,2); >> y= 4 * x. ^4-12*x.^3...
This is Matlab Problem and I'll attach problem1 and its answer for reference. We were unable to transcribe this imageNewton's Method We have already seen the bisection method, which is an iterative root-finding method. The Newton Rhapson method (Newton's method) is another iterative root-finding method. The method is geometrically motivated and uses the derivative to find roots. It has the advantage that it is very fast (generally faster than bisection) and works on problems with double (repeated) roots, where the...
Consider the following function. (If an answer does not exist, enter DNE.) 5 6 f(x) = 1 + х x² (a) Find the vertical asymptote(s). (Enter your answers as a comma-separated list.) x=0 Find the horizontal asymptote(s). (Enter your answers as a comma-separated list.) 1 y = (b) Find the interval where the function is increasing. (Enter your answer using interval notation.) (-00,0) U( 13.00) X Find the interval where the function is decreasing. (Enter your answer using interval notation.)...
This is the sequence 1,3,6,10,15 the pattern is addin 1 more than last time but what is the name for this patternThese are called the triangular numbers The sequence is 1 3=1+2 6=1+2+3 10=1+2+3+4 15=1+2+3+4+5 You can also observe this pattern x _________ x xx __________ x xx xxx __________ x xx xxx xxxx to see why they're called triangular numbers. I think the Pythagoreans (around 700 B.C.E.) were the ones who gave them this name. I do know the...
Question 1 QUESTION 2 Use the attached Matlab code as a basis to solve the following ordinary differential equation using Euler's method, with timestep of 0.1, from t-0to t-100. d)0) -0 - sin (5vt cos(у Plot y versus t from t=0 to t=100. How many local maxima are on this interval(do not include end points). Be careful to count them all! Answer should be an integer 1 w% Matlab code for the solution of Module 2 3 dt-9.1; %dt is...
a. Find the FV of $1,000 invested to earn 10% annually 5 years from now. Answer this question by using a math formula and also by using the Excel function wizard. Inputs: PV = 1000 I/YR = 10% N = 5 Formula: FV = PV(1+I)^N = Wizard (FV): $1,610.51 Note: When you use the wizard and fill in the menu items, the result is the formula you see on the formula line if you click on cell E12. Put the...
Consider a cylindrical capacitor like that shown in Fig. 24.6. Let d = rb − ra be the spacing between the inner and outer conductors. (a) Let the radii of the two conductors be only slightly different, so that d << ra. Show that the result derived in Example 24.4 (Section 24.1) for the capacitance of a cylindrical capacitor then reduces to Eq. (24.2), the equation for the capacitance of a parallel-plate capacitor, with A being the surface area of...