Motorcycle Jump
Students will explore quadratic functions in the form of a motorcycle jumping off of a ramp. Students will maximize the height of the jump and the airtime of the jump.https://education.ti.com/en/activity/detail/motorcycle-jump
Modeling Probabilities
This activity approaches probability distributions as functions taking information about a dataset as inputs and outputting a set of probabilities. This is analogous to the familiar process of choosing a function to model a set of x-y pairs. Students use simulations to explore increasing number o...https://education.ti.com/en/activity/detail/modeling-probabilities_1
Maximizing Your Efforts
Students write an objective function and graph the system of inequalities to find the maximum profit from selling two types of game players.https://education.ti.com/en/activity/detail/maximizing-your-efforts_1
TI-Nspire™ CX Graphing Calculator | Texas Instruments
Explore math and science with the TI-Nspire™ CX graphing calculator. Get advanced graphing functionality, intuitive features, colorful display. Learn more. TI-Nspire™ CX Graphing Calculator | Texas Instruments global website ...https://education.ti.com/en/products/calculators/graphing-calculators/ti-nspire-cx
Funding and Research | Grant Writing | Texas Instruments
Get free TI grant writing resources, funding guides, and research to support math and science education. Create stronger proposals—explore tips and strategies. Funding and Research | Grant Writing | Texas Instruments global website ...https://education.ti.com/en/resources/funding-and-research
Webinar | AP® Precalculus: Polar Functions and Rates of Change
Webinar | AP® Precalculus: Polar Functions and Rates of Change webinars website T³™ Professional Development | For Teachers and Teams | Online Learning | Live T³™ Webinars When: Tuesday,...https://education.ti.com/en/t3-professional-development/for-teachers-and-teams/online-learning/on-demand-webinars/2025/mar-4-2025-ap-precalculus-polar-functions-and-rates-of-change
Webinar | Teaching Inverses of Functions and Relations – Ideas You Have Not Used … Yet!
Webinar | Teaching Inverses of Functions and Relations – Ideas You Have Not Used … Yet! webinars website T³™ Professional Development | For Teachers and Teams | Online Learning | Live T³™ Webinars ...https://education.ti.com/en/t3-professional-development/for-teachers-and-teams/online-learning/on-demand-webinars/2025/apr-1-2025-teaching-inverses-of-functions-and-relations
Trig Ratios
Explore the ratios to develop the concept of the trigonometric functions.https://education.ti.com/en/activity/detail/trig-ratios
TI-84 Plus Lesson – Module 13.3: The Second Derivative Test | TI
... Introduction | Lesson 1 | Lesson 2 | Lesson 3 | Lesson 4 | Self-Test TI-84 Plus Graphing Calculator Calculus LessonModule 13: Extreme Values of Functions In this lesson you will learn about the second derivative test....https://education.ti.com/en/product-resources/t3-free-courses/calculus84-online/mod13/mod13-lesson3
AP® Statistics: 6 Math Functions You Must Know for the TI-84 Plus
...o TESTS. The AP® Statistics exam requires a deep understanding of the concepts, but also an ability to carry out statistical computations. So what functionalities on your calculator are best to know and use of when taking the exam? We highlight 6 features of the TI-84 Plus CE graphing calculat...https://education.ti.com/en/bulletinboard/2018/april/apstats
Three Pawsitively Fun TI-Nspire Math Activities
...Nspire activity on our website. 3. Dog Days or Dog Years Students will explore input/output relationships as they describe domain, range, and linear functions in the context of converting dog ages into human years. For more information, download the Teacher Notes (PDF). You can view and downlo...https://education.ti.com/en/bulletinboard/2018/august/dog_blog
Rational Functions
...e that allows you to dynamically examine the rational functions generated by quotients of linear functions. *NEW/UPDATED Rational Functions Planning and Resources Mathematics lessons for IB® Diploma Programme Applications and Interpretation | Functions .t...https://education.ti.com/en/ib/activities/applications-interpretation/nspire-rational-functions
Rational Functions
... Students investigate the graphs of functions of the form y = 1/(x - a). *NEW/UPDATED Rational Functions Planning and Resources Mathematics lessons for IB® Diploma Programme Applications and Interpretation | Functions .t...https://education.ti.com/en/ib/activities/applications-interpretation/84-rational-functions
Rational Functions
... Students investigate the graphs of functions of the form y = 1/(x - a). *NEW/UPDATED Rational Functions Planning and Resources Mathematics lessons for IB® Diploma Programme Analysis and Approaches | Functions .two-colum...https://education.ti.com/en/ib/activities/analysis-approaches/84-rational-functions
Rational Functions
... that allows you to dynamically examine the rational functions generated by quotients of linear functions. *NEW/UPDATED Rational Functions Planning and Resources Mathematics lessons for IB® Diploma Programme Analysis and Approaches | Functions .two-colu...https://education.ti.com/en/ib/activities/analysis-approaches/nspire-rational-functions-updated
Solution 11758: Functionality of the Function Keys [F1 - F5] on the TI-83 Family, TI-89 Family, TI-92 Family and Voyage™ 200.
... products Knowledge Base Knowledge Base Search What purpose do the function keys [F1 - F5] serve on my graphing calculator and how are they used? The function keys [F1 - F5] are used to access certain menus and commands. Some calculator software applicati...https://education.ti.com/en/customer-support/knowledge-base/ti-83-84-plus-family/product-usage/11758
Vector Calculus
Describes how to use the TI-89 for differential and integral calculus. The differential operations illustrated include gradient, divergence, curl, and Laplacian. Line and surface integrals also are included. The functions cordchk(), grad(), div(), curl() and lap() are created in this chapter, ...https://education.ti.com/en/activity/detail/vector-calculus
Convolution
Shows the convolution of two functions. To simplify the details, the functions are finite, piecewise, and continous.https://education.ti.com/en/activity/detail/convolution
Mean Machine
Students construct a function machine from a small box. Students use the calculator to discover functions. They create their own one-step and two-step function rules and turn their calculators into a function machine.https://education.ti.com/en/activity/detail/mean-machine
Vectors
Describes how to use the TI-89 for coordinate system transformations, vector algebra, and vector component transformations. The functions rec2cyl(), cyl2rec(), rec2sph(), and sph2rec() are created in this chapter for vector component transformations and are used in Chapters 10 and 11.https://education.ti.com/en/activity/detail/vectors
Electromagnetics
Describes how to use the TI-89 to solve Laplace's equation for two-dimensional electrostatic problems. The separation of variables method provides exact solutions but is restricted to specific geometries. The relaxation method is applicable to any geometry, but it provides only an approximate s...https://education.ti.com/en/activity/detail/electromagnetics
Introduction to the Fundamental Theorem
This activity builds student comprehension of functions defined by a definite integral, where the independent variable is an upper limit of integration.https://education.ti.com/en/activity/detail/introduction-to-the-fundamental-theorem
MacLaurin Polynomials
Students will use the TI-89 to investigate MacLaurin polynomials. They produce polynomials that approximate very special functions.https://education.ti.com/en/activity/detail/maclaurin-polynomials
Higher Order Derivatives
Students will calculate the second derivative of functions, inspect a graph and give the intervals for concave up and concave down and find the point of inflection.https://education.ti.com/en/activity/detail/higher-order-derivatives
The Logarithmic Derivative
Students will determine the derivative of the function y = ln(x) and work with the derivative of both y = ln(u) and y = loga(u).https://education.ti.com/en/activity/detail/the-logarithmic-derivative