Nuclear Binding Energy
Students explore the energy that results from the strong force in nuclei. The activity begins with the unexpected result that the mass of a nucleus is less than the sum of the masses of the protons and neutrons in the nucleus. In Part 2 of the activity, students analyze a graph to determine the r...https://education.ti.com/en/activity/detail/nuclear-binding-energy
Nuclear Decay and Chain Reactions
Students determine the decay constant and half-life and begin to look at nuclear fission by simulating a chain reaction.https://education.ti.com/en/activity/detail/nuclear-decay-and-chain-reactions
Polarization of Light
Students use data collected during a lab to explore the relationship between polarized light and light intensity.https://education.ti.com/en/activity/detail/polarization-of-light
Potential and Kinetic Energy
Students explore the relationship between the mass, energy, and angle of a projected object fired from an idealized cannon.https://education.ti.com/en/activity/detail/potential-and-kinetic-energy
Resolving Vectors
Students observe the relationship between a vector and its x- and y-components.https://education.ti.com/en/activity/detail/resolving-vectors
Cell Structure & Function
In this lesson, students will use cell model diagrams to interact with both animal and plant cells and explore the structure and function of the organelles.https://education.ti.com/en/activity/detail/cell-structure--function
Light and Waves
Students explore the interference patterns of waves formed by two point sources. Students are able to collect data and draw conclusions about the nodal lines formed by the interference.https://education.ti.com/en/activity/detail/light-and-waves
Light Intensity
Students investigate the relationship between light intensity and distance with a flashlight. They use the 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/light-intensity
Blood Pressure
In this lesson, students will assess blood pressure under changing conditions and make conclusions about the data they have collected.https://education.ti.com/en/activity/detail/blood-pressure
Light Refraction
In this lesson, students visually explores refraction of light as it passes through different substances with different indexes of light.https://education.ti.com/en/activity/detail/light-refraction
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
Mechanical Advantage of Pulleys
Students explore a single-fixed-pulley system by varying the load and measure the force necessary to lift the load.https://education.ti.com/en/activity/detail/mechanical-advantage-of-pulleys
Hare Today, Gone Tomorrow
In this lesson, students will use population data to study the relationship between predator and prey populations.https://education.ti.com/en/activity/detail/hare-today-gone-tomorrow
Enzyme Catalysts
In this lesson, students will explore the impact of a changing environment on the reaction rates of an enzyme.https://education.ti.com/en/activity/detail/enzyme-catalysts
Vernier - Introduction to Data Collection with TI-Nspire
In this lesson, students will be introduced to two of the most common modes of data collection.https://education.ti.com/en/activity/detail/vernier--introduction-to-data-collection-with-tinspire
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
Radioactive Dating Game (HS)
In this lesson, students will simulate radioactive dating at an archeological site.https://education.ti.com/en/activity/detail/radioactive-dating-game-hs
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