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m alg055.m

% ADAMS VARIABLE STEP-SIZE PREDICTOR-CORRECTOR ALGORITHM 5.5 % % To approximate the solution of the initial value problem % y' = f( t, y ), a
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m alg075.m

% CONJUGATE GRADIENT ALGORITHM 7.5 % % To solve Ax = b given the preconditioning matrix C inverse % and an initial approximation % x(0): % % INPUT: the number of equations and unknowns n; the
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m alg046.m

% GAUSSIAN TRIPLE INTEGRAL ALGORITHM 4.6 % % To approximate I = triple integral ( ( f(x,y,z) dz dy dx ) ) with % limits of integration from a to b for x, from c(x) to d(x) for y, and % from
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m alg062.m

% GAUSSIAN ELIMINATION WITH PARTIAL PIVOTING ALGORITHM 6.2 % % To solve the n by n linear system % % E1: A(1,1) X(1) + A(1,2) X(2) +...+ A(1,n) X(n) = A(1,n+1) % E2: A(2,1) X(1) + A(2,2) X(2) +
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m alg073.m

% SOR ALGORITHM 7.3 % % To solve Ax = b given the parameter w and an initial approximation % x(0): % % INPUT: the number of equations and unknowns n; the entries % A(I,J), 1
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m alg104.m

% CONTINUATION METHOD FOR SYSTEMS ALGORITHM 10.1 % % To approximate the solution of the nonlinear system F(X)=0 given % an initial approximation X: % % INPUT: Number n of equations and unknowns
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m alg123.m

% CRANK-NICOLSON ALGORITHM 12.3 % % To approximate the solution of the parabolic partial-differential % equation subject to the boundary conditions % u(0,t) = u(l,t) = 0, 0 < t < T = ma
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m alg034.m

% NATURAL CUBIC SPLINE ALGORITHM 3.4 % % To construct the cubic spline interpolant S for the function f, % defined at the numbers x(0) < x(1) < ... < x(n), sat
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m alg082.m

% CHEBYSHEV RATIONAL APPROXIMATION ALGORITHM 8.2 % % To obtain the rational approximation % % rT(x) = (p0*T0 + p1*T1 +...+ pn*Tn) / (q0*T0 + q1*T1 +...+ qm*Tm) % % for a given function f(x): %
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m alg124.m

% WAVE EQUATION FINITE-DIFFERENCE ALGORITHM 12.4 % % To approximate the solution to the wave equation: % subject to the boundary conditions % u(0,t) = u(l,t) = 0, 0 < t < T = max t %
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