Code Directory
 Visual Basic & VB.NET
New Code
Database Workbench Pro 5.5.0
Luxand FaceSDK 7.0
SSIS Data Flow Components 1.10
Entity Developer Professional 6.3
dbForge Index Manager for SQL Server 1.9
dbForge Data Generator For MySQL 2.2
Magento Australia Post eParcel Extension 1.0
Airbnb Script - Airbnb Clone 1.0.3
Hotel Restaurant Reviews and Feedback Script 1.0.3
Documenter for MySQL 1.0
ODBC Driver for xBase 1.1
ODBC Driver for FreshBooks 2.0
AnyGantt JS Gantt Charts 8.4.2
The C# Barcode Library
ConyEdit for Windows 1.1.0
Top Code
MATLAB Support Package for Arduino (aka ArduinoIO Package) 1.0
PHP MLM Software 2.0.1
Faculty Evaluation System 1.1
Database Workbench Pro 5.5.0
Sportsbook software by BOOKIE Software 3.01
School Management Script 1.0.4
Image retrieval - Query by Example Demo 1.0
Shopping System for Shopping Carts 1.1
Billing System 1.0.1
WordStat 2.0
Real Time Changing Clock v1.0
GnuWin64 64
Skeletonz 1.0b
dbForge Fusion for SQL Server 1.8
Top Rated
Deals and Discounts Website Script 1.0.2
ADO.NET Provider for ExactTarget 1.0
Solid File System OS edition 5.1
Classified Ad Lister 1.0
Aglowsoft SQL Query Tools 8.2
ICPennyBid Penny Auction Script 4.0
PHP Review Script 1.0
ATN Resume Finder 2.0
ATN Site Builder 3.0
Availability Booking Calendar PHP 1.0
PHP GZ Blog Script 1.1
ATN Jobs Software 4.0
ATN Mall 2.0
WeBuilder 2015 13.3
PHP Digital Download Script 1.0.4
Solve simultaneous linear equations in two variables 
File ID: 64152

Solve simultaneous linear equations in two variables 
Download Solve simultaneous linear equations in two variables Error Link
License: Freeware
Downloads: 43
Submit Rating:
Solve simultaneous linear equations in two variables  Description
Description: A function to solve simultaneous equations in two variables.

>>> solve('3*x + 5*y = 29; 12*x - 3*y = 24')
(3.0, 4.0)

License: Freeware

Related: Math, Shortcuts, Solver


Downloads: 43

More Similar Code

This program calculates the roots of a system of non-linear equations in 2 variables. This a script file and you only have to write in the command windows ">>newton2v2", and the program ask for the functions and other elements that are necessary. What I mean "quotes" is single quotes,like this: ' .
I will be grateful for any comment.
I also have this program for 3, 4 ,5 variables and can be extended to any...

You can solve non-linear systems of 3 variables. Only write "newtonv1" on the command window. Then write the 3 equations, the number of iterations y the precision tolerance. The partial derivatives for the gradients are calculated by the...

Let us suppose a set of non-linear equations in the form
F(m) = d
(m,d are vectors, F is a vector function of vector argument). ANNI tries to construct suitable numerical approximation for inverse projection of d to m, i.e. to find...

Solves simultaneous linear equations of any order using Crammer's rule. Required input is two for coefficients, and other for constants
eg. 2x+3y=8
x+4y=6 will be written as

a must be a n x n matrix of coefficients and
b must be a n x 1 matrix of constants

Example usage to solve this system of 2 simultaneous linear equations in 2 unknowns:

2x + 4x = 3 and
3x + 5x =...

Just a little bit of hack: a linear equations solver using eval and built-in complex numbers:

>>> solve("x - 2*x + 5*x - 46*(235-24) = x + 2")

Simple program that makes it faster and easier to solve simultaneous equations using the solve command.

It estimates the Newton Raphson optimization procedure for (m) unknowns of (n) non-linear equations. In case no Jacobian vector is presented, then the initial Jacobian vector is estimated by Broyden Method (multivariate secant approach) and it is...

Orthogonal Linear Regression in 3D-space by using Principal Components Analysis

This is a wrapper function to some pieces of the code from the Statistics Toolbox demo titled "Fitting an Orthogonal Regression Using Principal...

When a give system of linear equations are converted to vector form it can easily be written matrix form.

User Review for Solve simultaneous linear equations in two variables
- required fields

Please enter text on the image