 Home  - Math_Help_Desk - Equation Solvers
e99.com Bookstore
 Images Newsgroups
 61-80 of 99    Back | 1  | 2  | 3  | 4  | 5  | Next 20

 Equation Solvers:     more books (100)

lists with details

1. Math Help - SolveMyMath
Polynomial Calculator Complex Numbers Calculator Equation Solver Polynomial Calculator Complex Numbers Calculator Equation Solver
http://www.solvemymath.com/

Extractions: Math Help List- - Math Help Quick Jump - - Online Scientific Calculator - - General Math - Fraction Calculator Factoring Calculator Simplifying Expressions Divisors Calculator Factorial Calculator Greatest Common Factor (GCF) Calculator Least Common Multiple (LCM) Calculator Prime Number Calculator and Checker Perfect Number Validator Perfect Square Number Validator - Interpolation - Interpolation Calculator - Algebra And Combinatorics - Equations Solver Quadratic Equations Solver System of Equations Solver Combinatorics Permutations Polynomials Polynomials - Addition and Subtraction Polynomials - Multiplication and Division Polynomials - Differentiation and Integration Polynomials - Parity Calculator (Odd, Even, none) Polynomials - Root Finder Polynomials - Generate from Roots Matrices Matrix Calculator- Determinant, Inverse Matrix Calculator Matrix - Addition, Subtraction, Multiplication - Calculus - Integral Calculator Definite Integral Calculator Derivative Calculator Numerical Derivative Calculator Limit Calculator Taylor Series Expansion Calculator - Plots and Geometry - 2D Graphing Calculator 3D Graphing Calculator - Complex Numbers and Trigonometry - Complex Number Calculator Trigonometry Calculator - Number Theory - Riemann Zeta Function Calculator Hurwitz Zeta Function Calculator Bernoulli Numbers Generator Bernoulli Polynomial Generator PDF Calculator CDF Calculator Quantile Calculator Mean Calculator Standard Deviation Calculator Variance Calculator

2. Solving Equation Solver | TutorVista
Steps for 4 equation solvers Substitution method for 4 equation solvers First express the equation, y in terms of x in any one of the given equations.
http://www.tutorvista.com/topic/solving-equation-solver

3. Multigrid Equation Solvers For Large Scale Nonlinear Finite Element Simulations
Aug 18, 2009 The largest bottleneck in the growth in the scale of finite element applications is the linear equation solver used in implicit time
http://www.eecs.berkeley.edu/Pubs/TechRpts/1999/5430.html

Extractions: January 1999 The finite element method has grown, in the past 40 years, to be a popular method for the simulation of physical systems in science and engineering. The finite element method is used in a wide array of industries. In fact just about any enterprise that makes a physical product can, and probably does, use finite element technology. The success of the finite element method is due in large part to its ability to allow the use of accurate formulation of partial differential equations (PDEs), on arbitrarily general physical domains with complex boundary conditions. Additionally, the rapid growth in the computational power available in today's computers for an ever more affordable price has made finite element technology more accessible to a wider variety of industries and academic disciplines. As computational resources allow people to produce ever more accurate simulation of their systems allowing for the more efficient design and safety testing of everything from automobiles to nuclear weapons to artificial knee joints all aspects of the finite element simulation process are stressed. The largest bottleneck in the growth in the scale of finite element applications is the linear equation solver used in implicit time integration schemes. This is due to the fact that the direct solution methods popular in the finite element community as they are efficient, easy to use, and relatively unaffected by the underlying PDE and discretization do not scale well with increasing problem size.

5. Taylor Series For Differential Equation Solvers Local Error
File Format PDF/Adobe Acrobat Quick View
http://www.cs.berkeley.edu/~wkahan/Math128/Truncate.pdf

6. Define Differential Equation Problem For Ordinary Differential Equation Solvers
The solvers repeatedly call the ODE file to evaluate the system of differential equations at various times. This is required information – you must define
http://www.mathworks.com/help/techdoc/ref/odefile.html

Extractions: Home Select Country Contact Us Store Search Solutions Academia Support User Community ... View documentation for other releases Contents Index Getting Started User's Guide Functions Desktop Tools and Development Environment ... Z Learn more about MATLAB odefile is not a command or function. It is a help entry that describes how to create an M-file defining the system of equations to be solved. This definition is the first step in using any of the MATLAB ODE solvers. In MATLAB documentation, this M-file is referred to as an odefile , although you can give your M-file any name you like. You can use the odefile M-file to define a system of differential equations in one of these forms or where: is a scalar independent variable, typically representing time.

7. Scalability Analysis Of Linear Equation Solvers For Sparse Positive Definite Sys
Final rept. Jun 2002Aug 2003 Pages 34 Report Date SEP 2003 Report Number A142814Limitations APPROVED FOR PUBLIC RELEASE
http://www.stormingmedia.us/14/1428/A142814.html

8. ODEPACK - Ordinary Differential Equation Solvers
ODEPACK is a FORTRAN77 library which implements Alan Hindmarsh's solvers for ordinary differential equations. The library includes routines commonly referred to as
http://people.sc.fsu.edu/~jburkardt/f77_src/odepack/odepack.html

Extractions: Ordinary Differential Equation Solvers ODEPACK is a FORTRAN77 library which implements Alan Hindmarsh's solvers for ordinary differential equations. The library includes routines commonly referred to as LSODE solves nonstiff or stiff systems y' = f(y,t); LSODES is like LSODE, but in the stiff case the Jacobian matrix is assumed to be sparse, and treated with sparse routines; LSODA automatically switches between nonstiff and stiff solvers depending on the behavior of the problem; LSODAR is like LSODE, but includes the ability to detect and solve for solutions of a related set of algebraic equations; LSODPK is like LSODE, but uses preconditioned Krylov space iterative methods for the linear equation solvers; LSODKR includes the rootfinding ability of LSODA, and the Krylov solvers of LSODPK. LSODI solves the implicit system A(y,t)*y'(t) = g(y,t). LSOIBT is like LSODI, but assumes the matrix A is block tridiagonal.

9. Online Graphing Calculators: WebGraphing.com
Graph Functions, Equations and Inequalities Free Quadratic Equation Solvers. .. .it s a dream tool for graphing MH, Math Teacher, Hunter College
http://webgraphing.com/

10. Stiffness And Nonstiff Differential Equation Solvers, II: Detecting Stiffness Wi
by LF Shampine 1977 - Cited by 52 - Related articles
http://portal.acm.org/citation.cfm?id=355719.355722

11. Globally Convergent Jacobian-free Nonlinear Equation Solvers Based On Non-monoto
Aug 21, 2009 A Jacobianfree nonlinear equation solver based on a search technique called a spiral search , which is a modification of the line search.

12. Welcome To Bob Terrell's Free Stuff
(Get your freeware here we're dealin'!) The following educational programs are available here. Enjoy! Partial Differential Equation solvers. These programs are intended for
http://www.math.cornell.edu/~bterrell/free.html

Extractions: The following educational programs are available here. Enjoy! These programs are intended for beginning students of PDE's, say sophomore engineering students. No prior knowledge required. Point, click, and learn. The object is to develop some feeling for what these equations are about. You'll like these. Trust me. Also source code (as a tar file , or a zip file ) for these applets. There are two de solvers, for systems of up to 3 first order differential equations. They are handy but not sophisticated, using the fourth order Runge-Kutta method. One is a java applet, and one is an equivalent unix-style C program. The java applet is educational and easy to use, and the C program is fast. There is also a java applet which solves the forced pendulum equation x''+(1/q)x'+sin(x) = g cos(wt). DE: run java applet de download C source code here for de download java source code here for de Both sources contain equation parsers in their respective languages, which you might need independently of any interest in differential equations.

13. Quadratic Equation Tutorials, Homework Help And Problem Solvers.
Quadratic Equation tutorials, homework help and problem solvers.

14. Define Differential Equation Problem For Ordinary Differential Equation Solvers
Define differential equation problem for ordinary differential equation solvers
http://www.mathworks.com/access/helpdesk/help/techdoc/ref/odefile.shtml

Extractions: Home Select Country Contact Us Store Search Solutions Academia Support User Community ... View documentation for other releases Contents Index Getting Started User's Guide Functions Desktop Tools and Development Environment ... Z Learn more about MATLAB odefile is not a command or function. It is a help entry that describes how to create an M-file defining the system of equations to be solved. This definition is the first step in using any of the MATLAB ODE solvers. In MATLAB documentation, this M-file is referred to as an odefile , although you can give your M-file any name you like. You can use the odefile M-file to define a system of differential equations in one of these forms or where: is a scalar independent variable, typically representing time.

15. Evaluation Of The Linear Matrix Equation Solvers In SLICOT
File Format PDF/Adobe Acrobat Quick View

16. The Quest For Linear Equation Solvers
File Format Microsoft Word View as HTML
http://johngustafson.net/pubs/pub57/QuestLinearSolvers.doc

Extractions:  Mo, S.K., “Jiuzhang Suanshu” (“Nine chapters on the mathematical art”) and Liu Hui's commentary (Chinese), Stud. Hist. Nat. Sci. 19 (2) (2000), pp. 97–113.  Bell, E. T., reprinted in The World of Mathematics, Vol. 1., J. R. Newman, ed., Dover Publications, 2003.  Cayley et al., “Report of the Committee… to consider the advisability and to estimate the expense of constructing Mr. Babbage’s Analytical Machine, and of printing Tables by its means,” reprinted in The Origins of Digital Computers, B. Randell, ed., Third Edition, Springer-Verlag, New York, 1982, p. 64.  Falbo, C., .  Sarles, P., About Augusta Ada King, online biography; , Dec. 2000.  Atanasoff, J. V., “Computing Machine for the Solution of Large Systems of Linear Algebraic Equations,” reprinted in The Origins of Digital Computers, B. Randell, ed., 3rd Edition, Springer-Verlag, New York, 1982, pp. 315–335.  Kopplin, J., “Illustrated History of Computers Part 4” <öìâØÎÄº¸¸¸¸¸¸¸¸¸¸¸¸¸´´´´´²´´´´´²´´´´´²´´´´´²´´´´´²¸¸¸¸¸¸¸¸¸¸¸¸¸¸¸¸¸¸¸¸ ˆìÿÿ  ¾ìÿÿ  òìÿÿ  íÿÿ  -íÿÿ  gíÿÿ  íÿÿ  FÖ/ì/ð/ô/ø/ü/þ/00 0ôôôôôP@ôôô¤\$\$If–lÖÖrZF, ù àìæçæçÖ0ÿÿÿÿÿÿö6ÖÿÿÿÿÿÖÿÿÿÿÿÖÿÿÿÿÿÖÿÿÿÿÿ4Ö laöÆ \$\$\$Ifa\$ 0 000000000ôôP

17. Hybrid Time Domain Solvers For The Maxwell Equations In 2D - Abenius - 2002 - In
Your browser may not have a PDF reader available. Google recommends visiting our text version of this document.
http://www3.interscience.wiley.com/journal/89014030/articletext?DOI=10.1002/nme.

18. Linear Solver
solves your linear systems, including systems with parameters. This is the main site of WIMS (WWW Interactive Multipurpose Server) interactive exercises, online calculators and