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Npr05_17

% file npr05_17.m % Data for problem P5-17PG1 = 84/150; PG2 = 66/125;A = [0.61 0.31 0.08      0.50 0.38 0.12     0.23 0.64 0.13      0.29 0.63 0.08     0.32 0.62 0.06      0.58 0.23 0.19     0.19 0.70 0.11      0.56 0.38 0.06     0.65 0.20 0.15      0.29 0.63 0.08]; B = [0.41 0.51 0.08     0.29 0.65 0.06      0.59 0.33 0.08     0.57 0.29 0.14      0.42 0.50 0.08     0.29 0.62 0.09      0.56 0.32 0.12     0.29 0.64 0.08      0.41 0.50 0.09     0.59 0.32 0.09];disp('Call for oddsdp')

Npr06_10

% file npr06_10.m % Data for problem P6-10pm = [ 0.072 0.048 0.018 0.012 0.168 0.112 0.042 0.028 ...        0.062 0.048 0.028 0.010 0.170 0.110 0.040 0.032]; c  = [-5.3 -2.5 2.3 4.2 -3.7]; disp('Minterm probabilities are in pm, coefficients in c')

Npr06_12

% file npr06_12.m % Data for problem P6-12pm = 0.001*[5 7 6 8 9 14 22 33 21 32 50 75 86 129 201 302]; c = [1 1 1 1 0]; disp('Minterm probabilities in pm, coefficients in c')

Npr06_18.m

% file npr06_18.m % Data for problem P6-18cx = [5 17 21 8 15 0];cy = [8 15 12 18 15 12 0];pmx = minprob(0.01*[37 22 38 81 63]);pmy = minprob(0.01*[77 52 23 41 83 58]);disp('Data in cx, cy, pmx, pmy')

Npr07_01

\begin{verbatim} % file npr07_01.m% Data for problem P7-1 T = [1 3 2 3 4 2 1 3 5 2]; pc = 0.01*[ 8 13 6 9 14 11 12 7 11 9]; disp('Data are in T and pc')\end{verbatim}

Npr07_02

% file npr07_02.m % Data for problem P7-2T = [3.5 5.0 3.5 7.5 5.0 5.0 3.5 7.5];pc = 0.01*[10 15 15 20 10 5 10 15];disp('Data are in T, pc')

Npr08_01

% file npr08_01.m % Solution for problem P8-1X = 0:2; Y = 0:2;Pn = [132  24   0; 864 144  6; 1260 216 6];P = Pn/(52*51); disp('Data in Pn, P, X, Y')

Npr08_02

% file npr08_02.m % Solution for problem P8-2X = 0:2; Y = 0:2;Pn = [6 0 0; 18 12 0; 6 12 2];P = Pn/56; disp('Data are in X, Y,Pn, P')

Npr08_03

% file npr08_03.m % Solution for problem  P8-3X = 1:6; Y = 0:6;P0 = zeros(6,7);       % Initialize for i = 1:6            % Calculate rows of Y probabilities    P0(i,1:i+1) = (1/6)*ibinom(i,1/2,0:i); endP = rot90(P0);         % Rotate to orient as on the plane PY = fliplr(sum(P'));  % Reverse to put in normal orderdisp('Answers are in X, Y, P, PY')

Npr08_04

% file npr08_04.m % Solution for problem P8-4X = 2:12; Y = 0:12;PX = (1/36)*[1 2 3 4 5 6 5 4 3 2 1];P0 = zeros(11,13); for i = 1:11    P0(i,1:i+2) = PX(i)*ibinom(i+1,1/2,0:i+1); endP = rot90(P0); PY = fliplr(sum(P'));disp('Answers are in X, Y, PY, P')

Npr08_05

% file npr08_05.m % Data and basic calculations for P8-5PX = (1/36)*[1 2 3 4 5 6 5 4 3 2 1];X = 2:12; Y = 0:12;P0 = zeros(11,13); for i = 1:11  P0(i,1:i+2) = PX(i)*ibinom(i+1,1/6,0:i+1); endP = rot90(P0); PY = fliplr(sum(P'));disp('Answers are in X, Y, P, PY')

Npr08_06

% file  Newprobs/pr08_06.m % Data for problem P8-6 (from Exam 2, 95f)P = [0.0483    0.0357    0.0420    0.0399    0.0441      0.0437    0.0323    0.0380    0.0361    0.0399     0.0713    0.0527    0.0620    0.0609    0.0551      0.0667    0.0493    0.0580    0.0651    0.0589]; X = [-2.3 -0.7 1.1 3.9 5.1]; Y = [ 1.3  2.5 4.1 5.3]; disp('Data are in X, Y, P')

Npr08_07

% file pr08_07.m  (from Exam3, 96s) % Data for problem P8-7X = [-3.1 -0.5  1.2  2.4  3.7 4.9];Y = [-3.8 -2.0  4.1  7.5];P = [ 0.0090    0.0396    0.0594    0.0216    0.0440    0.0203;       0.0495         0    0.1089    0.0528    0.0363    0.0231;      0.0405    0.1320    0.0891    0.0324    0.0297    0.0189;       0.0510    0.0484    0.0726    0.0132         0    0.0077]; disp('Data are in X, Y, P')

Npr08_08

% file Newprobs/pr08_08.m (from Exam 4 96s) % Data for problem P8-8P = [0.0156  0.0191  0.0081  0.0035  0.0091  0.0070  0.0098  0.0056  0.0091  0.0049;      0.0064  0.0204  0.0108  0.0040  0.0054  0.0080  0.0112  0.0064  0.0104  0.0056;     0.0196  0.0256  0.0126  0.0060  0.0156  0.0120  0.0168  0.0096  0.0056  0.0084;      0.0112  0.0182  0.0108  0.0070  0.0182  0.0140  0.0196  0.0012  0.0182  0.0038;     0.0060  0.0260  0.0162  0.0050  0.0160  0.0200  0.0280  0.0060  0.0160  0.0040;      0.0096  0.0056  0.0072  0.0060  0.0256  0.0120  0.0268  0.0096  0.0256  0.0084;     0.0044  0.0134  0.0180  0.0140  0.0234  0.0180  0.0252  0.0244  0.0234  0.0126;      0.0072  0.0017  0.0063  0.0045  0.0167  0.0090  0.0026  0.0172  0.0217  0.0223];  X = 1:2:19; Y = [-5  -3  -1  3  5 9 10 12]; disp('Data are in X, Y, P')

Npr08_09

% file pr08_09.m   (from Exam3 95f) % Data for problem P8-9P = [0.0390    0.0110    0.0050    0.0010    0.0010;      0.0650    0.0700    0.0500    0.0150    0.0100;     0.0310    0.0610    0.1370    0.0510    0.0330;      0.0120    0.0490    0.1630    0.0580    0.0390;     0.0030    0.0090    0.0450    0.0250    0.0170];X = [1 1.5 2 2.5 3];Y = [1 2 3 4 5];disp('Data are in X, Y, P')

Npr09_02

\begin{verbatim} % file Newprobs/npr09_02.m% Data for problem P9-2 P = [0.0589 0.0342 0.0304 0.0456 0.0209;0.0961 0.0556 0.0498 0.0744 0.0341; 0.0682 0.0398 0.0350 0.0528 0.0242;0.0868 0.0504 0.0448 0.0672 0.0308];X = [-3.9 -1.7 1.5 2.8 4.1];Y = [-2 1 2.6 5.1];disp('Data are in X, Y, P') \end{verbatim}

Npr10_16

\begin{verbatim} % file npr10_16.m% Data for problem P10-16 cx = [-2 1 3 0]; pmx = 0.001*[255 25 375 45 108 12 162 18]; cy = [1 3 1 -3]; pmy = minprob(0.01*[32 56 40]); Z = [-1.3 1.2 2.7 3.4 5.8]; PZ = 0.01*[12 24 43 13 8]; disp('Data are in cx, pmx, cy, pmy, Z, PZ')\end{verbatim}

Npr12_10

% file npr12_10.m % Data for problems P12-10, P12_11cx = [-3.3 -1.7 2.3 7.6 -3.4];pmx = 0.0001*[475 725 120 180 1125 1675 280 420 480 720 130 170 1120 1680 270 430];cy = [10 17 20 -10];pmy = 0.01*[6 14 9 21 6 14 9 21];disp('Data are in cx, cy, pmx and pmy')

Npr16_07

\begin{verbatim} % file npr16_07.m% Transition matrix for problem P16-7 P = [0.23 0.32 0.02 0.22 0.21;0.29 0.41 0.10 0.08 0.12; 0.22 0.07 0.31 0.14 0.26;0.32 0.15 0.05 0.33 0.15; 0.08 0.23 0.31 0.09 0.29]; disp('Transition matrix is P')\end{verbatim}

Npr16_09

% file npr16_09.m % Transition matrix for problem P16-9P = [0.2 0.5 0.3  0   0   0   0;      0.6 0.1 0.3  0   0   0   0;     0.2 0.7 0.1  0   0   0   0;      0   0   0  0.6 0.4  0   0;       0   0   0  0.5 0.5  0   0;     0.1 0.3  0  0.2 0.1 0.1 0.2;      0.1 0.2 0.1 0.2 0.2 0.2  0 ]; disp('Transition matrix is P')

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Source:  OpenStax, Applied probability. OpenStax CNX. Aug 31, 2009 Download for free at http://cnx.org/content/col10708/1.6
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