Created on: August 29, 2012

Website Address: https://library.curriki.org/oer/Math-Simulations

TABLE OF CONTENTS

- How To Search for Free Open-Educational Resources Using Curriki
- How to Share Free Open-Educational Resources Using Curriki
- Arts Virtual Learning Resources
- Math Virtual Learning Resources
- Language Arts Virtual Learning Resources
- Science Virtual Learning Resources
- Social Studies Virtual Learning Resources
- CTE-Career and Technical Education Virtual Learning Resources
- EdTech Tools and Software Applications for Virtual Learning
- Wide Open School by Common Sense

- Characteristics of Life
- Protein Structure and Folding
- Prokaryotic vs. Eukaryotic Cells (updated)
- Osmosis and Water Potential
- Mitosis vs. Meiosis: Side by Side Comparison
- Viruses (updated)
- Fermentation
- Chromosomes and Karyotypes
- The Cell Cycle and Cancer (updated)
- Inside the Cell Membrane
- Alleles and Genes
- Protein Synthesis (updated)
- DNA, Chromosomes, Genes, and Traits: An Intro to Heredity
- Ecological Relationships
- Introduction to Cell Signaling
- Gel Electrophoresis
- Homeostasis and Negative/Positive Feedback
- General Lab Safety
- Asexual and Sexual Reproduction
- Meiosis (updated)
- Endosymbiotic Theory
- Genetic Drift
- Speciation
- Classification
- Pedigrees
- Amoeba Sisters A Christmas Carol
- Archaea
- Casual and Scientific Use of \"Theory\" and \"Law\"
- Antibiotics, Antivirals, and Vaccines
- Bacteria
- Protists and Fungi
- Punnett Squares and Sex-Linked Traits
- Monohybrids and the Punnett Square Guinea Pigs
- Cellular Respiration and the Mighty Mitochondria
- Photosynthesis and the Teeny Tiny Pigment Pancakes
- Plant Structure and Adaptations
- DNA Replication: The Cell's Extreme Sport
- Osmosis: A Solute and Solvent Love Story
- Plant Reproduction in Angiosperms
- Human Body Systems: The 11 Champions
- Mutations: The Potential Power of a Small Change
- Bacteria: The Good, The Bad, The Kinda Gross
- Meiosis: The Great Divide
- Why RNA is Just as Cool as DNA
- Protein Synthesis and the Lean, Mean Ribosome Machines
- Prokaryotes and Eukaryotes
- Viruses: Virus Replication and The Mysterious Common Cold
- DNA Structure and Function
- The Mini Mitosis Tutorial
- Mitosis: The Amazing Cell Process that Uses Division to Multiply!
- The Cell Cycle and Cancer
- The Biomolecule Band
- Homeostasis (and the Cell Membrane King)
- Enzymes and...Pac-Man?

- Kate's Math Lessons-Geometry
- Kate's Math Lessons-Algebra 1
- POLYUP: GRADES 3 to 5 MATH
- Crash Course: Computer Science-Programming
- Crash Course: Computer Science
- Crash Course Videos: Statistics
- Math Simulations
- Math Videos
- Brainpop Videos
- Kid TED Talks
- IXL Math
- Desmos
- Khan Academy Math Videos
- Illustrative Mathematics
- Newsela
- Online math and language arts program

- Pythagorean Theorem Battleship
- Arithmetic
- Adding Integers (Positives and Negatives)
- National Library of Virtual Manipulatives
- Equation Grapher from PhET
- Family of Functions
- Area of Circle
- Interactive Tutorial for Integer Addition/Subtraction
- Interactive Simulation: Bar Grapher
- Interactive Excel Spreadsheets: Examples for Use in the Classroom and How to Develop
- Turing Machine Simulation
- Simulation: Circle Grapher

IN COLLECTION

Collection of animations and simulations for teaching math concepts

It's a battle of wits against the computer. Remember that a²+b²=c²

Remember your multiplication tables? … me neither. Brush up on your multiplication, division, and factoring skills with this exciting game. No calculators allowed!

This activity uses Instructional Architect and a variety of web resources to help students learn to add integers.

Interactive and online virtual manipulatives for mathematics.

Learn about graphing polynomials. The shape of the curve changes as the constants are adjusted. View the curves for the individual terms (e.g. y=bx ) to see how they add to generate the polynomial curve. Embedded from http://phet.colorado.edu/en/simulation/equation-grapher

Powerpoint with activating lesson, lesson, and references to assessments (GPS Georgia Mathematics I: Test Prep and Practice) for Unit 1, Lesson 1 for Math I. Concepts: Family of Functions: Linear, Absolute Value, Quadratic, Cubic, Radical, and Rational Skills: MM1A1.a How do we represent functions using function notation? MM1A1.b How do we graph and write equation for each of the Family of Functions? MM1A1.c How do we graph transformations of functions? MM1A1.d What are the characteristics of a function and how do you use them? MM1A1.e How do we use graphs and tables to investigate behavior of functions? MM1A1.f How do we recognize sequences as functions with domains that are whole numbers? MM1A1.g How do constant rates of change compare to variable rates of change within the Family of Functions? MM1A1.h How do we determine graphically and algebraically whether a function has symmetry and whether it is odd, even, or neither? MM1A1.i How do we interpret an equation in x, and its solutions as f(x) = g(x) and show where they intersect? Identify functions by graph and equation B. Identify critical points and slope C. Identify characteristics: Domain and range, zeros and intercepts, max and min, end behavior, and increase and decrease C. Graph equation D. Write equations from graph E. Identify parent graphs. Learning Activities: Methods: Procedures:

A good presentation for ease of understanding

Provides step-by-step feedback for students as they learn to model integer addition and subtraction with pictures. A hands-on experience that allows students to master the reasoning behind the "add the opposite" method for subtracting integers while developing fluency with addition.

An interactive to create a custom bar graph with your own data or display a bar graph from an included set of data.

This is a collection of interactive Excel spreadsheets or Excelets for use in mathematics and general chemistry. Many of the spreadsheets come with discovery-based activities. A number of Excelets support the introduction of mathematical modeling concepts. The user changes a variable and the spreadsheet changes in numerical, graphical, and/or even symbolic form (equations). Through the use of numerical experimentation and "what if" scenarios, we have a powerful learning tool for students using readily available off-the-shelf software. All of this is done computationally with no use of programming, no macros or Visual Basics for Applications, VBA.

In 1936 Alan Turing, a British Mathematician, came up with an idea for an imaginary machine that could carry out all kinds of computations on numbers and symbols. He believed that if you could write down a set of rules describing your computation his machine could faithfully carry it out. Turing's Machine is the cornerstone of the modern theory of computation and computability even though it was invented nine years before the creation of the first electronic digital computer.

An interactive to create a custom pie chart with your own data or display a pie chart from an included set of data.