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 Varying Motion This algebra lesson helps students understand the relationship between the shape of a graph and the movement of an object. Students will collect and graph data, use slopes of tangent lines to create graphs of instantaneous velocities and instantaneous accelerations and use the area under a graph line to calculate velocities and displacements at specific moments in time. The material is intended... http://illuminations.nctm.org/Lesson.aspx?id=2955
 Too Hot To Handle, Too Cold To Enjoy This algebra lesson from Illuminations helps students learning to graph real world data. Students will collect, graph and analyze data, and choose an appropriate mathematical model for a particular situation. They will also learn to make predictions based on their analysis. A student activity sheet and short video are included. The lesson is intended for grades 9-12 and should require 1 class... http://illuminations.nctm.org/Lesson.aspx?id=3180
 There Has to Be a System for This Sweet Problem This algebra lesson from Illuminations lets students gain experience solving problems using systems of equations. The example problem provided has one solution, but multiple variations may be used to derive the answer. A student activity sheet is included. The lesson is intended for grades 9-12 and should require 1 class period to complete. http://illuminations.nctm.org/Lesson.aspx?id=2783
 Venn Diagrams and Logic This math lesson from Illuminations uses Venn diagrams to illustrate direct, indirect and transitive reasoning. Students will learn the definitions of direct, indirect and transitive reasoning and give examples of each. Several student activity sheets are included. The material is intended for grades 9-12 and should require 2 and a half class periods to complete. http://illuminations.nctm.org/Lesson.aspx?id=1444
 Introduction to Numerical Analysis This course, presented by MIT and taught by Professor Alar Toomre, provides an introduction to numerical analysis. The material looks at the basic techniques for the efficient numerical solution of problems in science and engineering. Topics include root finding, interpolation, approximation of functions, integration, differential equations and direct and iterative methods in liner algebra.... http://ocw.mit.edu/courses/mathematics/18-330-introduction-t...
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