Real-World Math with Vernier: Connecting Math and Science contains 32 activities that explore real-world mathematical applications of concepts from algebra through calculus.
RWV-E Real-World Math w/ Vernier – Electronic
€ 68,39 + PDV
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Real-World Math with Vernier includes 32 activities covering concepts such as linear, quadratic, and periodic functions; statistics; systems of equations; and many more. The activities found in this book are written for use with TI-Nspire™ technology.
Real-World Math with Vernier is a revision and compilation of the earlier Texas Instruments publications Real-World Math with the CBL 2 and LabPro and Real-World Math Made Easy, and the Vernier publication Real-World Math with Computers.
Table of Contents
| Experiment | Suggested Products | |
|---|---|---|
| 1 | Walk the Line – Straight Line Distance Graphs | Motion Detector |
| 2 | Making Cents of Math: Linear Relationship between Weight and Quantity | Dual-Range Force Sensor |
| 3 | Pool Plunge – Linear Relationship between Water Depth and Pressure | Gas Pressure Sensor |
| 4 | Funnel Volumes – Volume and Weight | Dual-Range Force Sensor |
| 5 | Keep It Bottled Up – Rates of Pressure Increase | Gas Pressure Sensor |
| 6 | Mix It Up – Mixing Liquids of Different Temperatures | Stainless Steel Temperature Probe (2) |
| 7 | Spring Thing – Newton’s Second Law | Dual-Range Force Sensor, Motion Detector |
| 8 | Stretch It to the Limit – The Linear Force Relation for a Rubber Band | Dual-Range Force Sensor, Motion Detector |
| 9 | What Goes Up – Position and Time for a Cart on a Ramp | Motion Detector |
| 10 | That’s the Way the Ball Bounces – Height and Time for a Bouncing Ball | Motion Detector |
| 11 | Walk This Way – Definition of Rate | Motion Detector |
| 12 | Velocity Test – Interpreting Graphs | Motion Detector |
| 13 | From Here to There – Applications of the Distance Formula | Motion Detector (2) |
| 14 | Under Pressure – The Inverse Relationship between Pressure and Volume | Gas Pressure Sensor |
| 15 | Light at A Distance – Distance and Intensity | Light Sensor |
| 16 | Chill Out: How Hot Objects Cool | EasyTemp |
| 17 | Charging Up, Charging Down – Charging a Capacitor | Voltage Probe |
| 18 | Bounce Back – The Pattern of Rebound Heights | Motion Detector |
| 19 | Sour Chemistry – The Exponential pH Change | pH Sensor |
| 20 | Swinging Ellipses – Plotting an Ellipse | Motion Detector |
| 21 | Lights Out! – Periodic Phenomena | Light Sensor |
| 22 | Tic, Toc: Pendulum Motion | Motion Detector |
| 23 | Stay Tuned: Sound Waveform Models | Microphone |
| 24 | Up And Down: Damped Harmonic Motion | Motion Detector |
| 25 | How Tall? Describing Data with Statistical Plots | Motion Detector |
| 26 | And Now, the Weather – Describing Data with Statistics | Stainless Steel Temperature Probe |
| 27 | Meet You at the Intersection: Solving a System of Linear Equations | Motion Detector (2) |
| 28 | Titration Curves: An Application of the Logistic Function | pH Sensor |
| 29 | Clock Design: Period and Length of a Simple Pendulum | Motion Detector |
| 30 | Graph It in Pieces: Piecewise Defined Functions | Motion Detector |
| 31 | Stepping to the Greatest Integer: The Greatest Integer Function | CBR 2 |
| 32 | Crawling Around: Parametric Plots | Motion Detector (2) |
