Numerical Computing and Mathematical Analysis |
Contents
SYSTEMS OF LINEAR EQUATIONS | 53 |
Problems | 68 |
References | 172 |
Copyright | |
5 other sections not shown
Common terms and phrases
algorithm applied approximating function argument values Assume b₁ basis bisection method coefficients column computational error constant data points defined derivative det(A diagonal difference digits divided-difference eigenvalues eigenvectors elements equal error bound error propagation estimate exact-matching exercise false position formula Fourier transform Gauss-Seidel method Gaussian elimination hyperplane independent eigenvectors inner product input integration interpolation iterative method iterative step Jacobi method LFTGUESS linear combination linear equations linearly independent magnitude matrix maximum method of false multiplications Newton's method nonlinear equations nonzero norm normal numerical methods obtain order of convergence orthogonal Picard iteration pivoting polynomial probability distribution produce random variables relative error result root secant method sequence Show solution solve subtraction symmetric tabular arguments tabular points theorem triangularization truncation error vector space x₁ xi+1 Xm+1 XNEW zero