AP Algebra Helper
Detailed App Info:
Application Description
This algebra solver allows you to solve for any parameter of linear, parabolic, and dual linear equations. In both numeric and graphical presentations there are convenient sliders to set values of the independent or dependent parameters to help with linear and quadratic formulas.
The app has 4 main panels - linear (y = mx+b); quadratic polynomial (y = ax^2 + bx + c); quadratic factored (y = (x+a)(x+b); and dual linear (ay=bx+c, dy=ex+ f). In the front panel there are text entries and sliders for each parameter and a lock button to choose the dependent variable (e.g. the one that is solved). On the flipside of each is a graph of the equation with an additional slider and text box to change any of the values while solving for y or x.
The dual linear solves for the intersection of the two lines.
This is a quick way to visualize algebra problems, prepare for tests, check homework, or solve precision problems.
The app has 4 main panels - linear (y = mx+b); quadratic polynomial (y = ax^2 + bx + c); quadratic factored (y = (x+a)(x+b); and dual linear (ay=bx+c, dy=ex+ f). In the front panel there are text entries and sliders for each parameter and a lock button to choose the dependent variable (e.g. the one that is solved). On the flipside of each is a graph of the equation with an additional slider and text box to change any of the values while solving for y or x.
The dual linear solves for the intersection of the two lines.
This is a quick way to visualize algebra problems, prepare for tests, check homework, or solve precision problems.
Requirements
Your mobile device must have at least 13.23 MB of space to download and install AP Algebra Helper app. AP Algebra Helper is available on iTunes for $0.99
If you have any problems with installation or in-app purchase, found bugs, questions, comments about this application, you can visit the official website of Radius Development Alan Nash at http://www.radius-software.net/Radius_Software/Algebra_Helper.html.
Copyright © Alan Nash