Looking Through the Lens
Students use simulated experiments to explore ray diagrams for converging and diverging thin lenses.https://education.ti.com/en/activity/detail/looking-through-the-lens
Magnetic Field of a Coil - Data Collection
In this lesson, students will explore the proportional relationship between the magnetic flux density at the center of a long, electrically charged coil and the strength of the electrical current.https://education.ti.com/en/activity/detail/magnetic-field-of-a-coil--data-collection
Mechanical Advantage
In this lesson, students will explore the relationship between resistance force and effort force for the inclined plane and the lever.https://education.ti.com/en/activity/detail/mechanical-advantage
Exploring Diffusion
In this lesson, students will explore diffusion through a selectively permeable membrane.https://education.ti.com/en/activity/detail/exploring-diffusion
Vernier - Simple Harmonic Motion
In this lesson, students will use the motion detector to determine the amplitude, period, and phase constant of the observed simple harmonic motion.https://education.ti.com/en/activity/detail/vernier--simple-harmonic-motion
Vernier - Sound Waves and Beats
In this lesson, students will use the microphone to measure the frequency and period of sound waves from tuning forks.https://education.ti.com/en/activity/detail/vernier--sound-waves-and-beats
Why Bigger is Not Necessarily Better
In this lesson, students will discover the dynamic relationship between the surface area and the volume of a "cell."https://education.ti.com/en/activity/detail/why-bigger-is-not-necessarily-better
Vernier - Using DataQuest
This appendix gives an overview of using the Vernier DataQuest™ application on a TI-Nspire handheld and software. It includes information on accessing the common tools in the DataQuest Application.https://education.ti.com/en/activity/detail/vernier--using-dataquest
Work and Power
Students explore the relationship between power, work, and time. They also explore the relationship between power, force, and speed. Based on these explorations, students derive the equation P = Fv and solve problems dealing with power in various mechanical problems.https://education.ti.com/en/activity/detail/work-and-power
Molecular Weight
Students will find the atomic mass on the periodic table and use this to determine the mass of one atom, one mole of atoms. They will also determine formula masses.https://education.ti.com/en/activity/detail/molecular-weight
Work and Energy Assessment
This TI-Nspire™ question set (.tns) has assessment questions relating to Physics: Work and Energyhttps://education.ti.com/en/activity/detail/work-and-energy-assessment
Skills of Science - Building and Interpreting Graphs
In this lesson, students use TI-Nspire technology to understand the fundamentals of good graphing in the science classroom and laboratory.https://education.ti.com/en/activity/detail/skills-of-science--building-and-interpreting-graphs
Skills of Science - Creating Lab Reports
In this lesson, students see how to use PublishViewTM to create lab reports using the TI-Nspire computer software.https://education.ti.com/en/activity/detail/skills-of-science--creating-lab-reports
Skills of Science - Graphical Analysis
In this lesson, students will graph different data sets to determine the mathematical relationship.https://education.ti.com/en/activity/detail/skills-of-science--graphical-analysis
NASA - A Breath of Fresh Air
In this activity, students will investigate how the ISS (International Space Station) goes about producing enough oxygen to maintain 6 crew members.https://education.ti.com/en/activity/detail/nasa--a-breath-of-fresh-air
Sound Intensity
Students investigate the relationship between sound intensity and distance for a commercial loudspeaker. They use collected data to identify a mathematical model for the relationship. They then compare this model with the inverse square law for an ideal point source.https://education.ti.com/en/activity/detail/sound-intensity
Vernier - Reaction Stoichiometry
In this lesson, students use a temperature probe to investigate an acid-base reaction in order to write balanced chemical equations and determine mole ratios.https://education.ti.com/en/activity/detail/vernier--reaction-stoichiometry
Tool - Vector
This tool can be used alone, or you can copy/paste it into another TNS document.https://education.ti.com/en/activity/detail/tool--vector
Two-Dimensional Collisions
Students observe animations of two-dimensional elastic collisions of spheres and then calculate linear momenta and kinetic energies.https://education.ti.com/en/activity/detail/twodimensional-collisions
Tool - Significant Figures Calculator
This tool can be used alone, or you can copy/paste it into another TNS document.https://education.ti.com/en/activity/detail/tool--significant-figures-calculator
Vernier - Acid-Base Titration
In this lesson, students will use a pH sensor to monitor the pH of a solution and determine the equivalence point.https://education.ti.com/en/activity/detail/vernier--acidbase-titration
Up and Down: Vertical Oscillations
Students explore vertical oscillations produced by a mass attached to an elastic spring and collect data on the force of the spring as a function of time.https://education.ti.com/en/activity/detail/up-and-down-vertical-oscillations
Vernier - Evaporation and Intermolecular Attraction
In this lesson, students will use the temperature probe to study the evaporation rate of different liquids.https://education.ti.com/en/activity/detail/vernier--evaporation-and-intermolecular-attraction
Bending Light
In this activity, students explore the refraction of a single light ray. They begin by exploring light traveling from a less dense medium into a denser medium. They use a numerical approach to establish a relationship between the angle of incidence and the angle of refraction. Then, students expl...https://education.ti.com/en/activity/detail/bending-light
Colligative Properties
Investigate the freezing point depression due to different concentration of solute.https://education.ti.com/en/activity/detail/colligative-properties