Prepare your students for real-world problem solving and open-ended lab experiments. Experienced educators and curriculum specialists have developed each of these lessons, and we have tested them in real classrooms. PocketLab physics lessons cover introductory and advanced topics from one-dimensional motion to electricity and magnetism to simple harmonic motion. Browse all the high school and AP-level physics lessons below or use the filters to search for specific content.
High School Physics
3D Printed Pendulum for Simple Harmonic Motion
This 3D printed model demonstrates the physics of a simple pendulum that consists of a mass, m, hanging from an arm of length, L, and fixed at a pivot point, P. You can move the mass along the length of the arm to change the center of mass of the pendulum. If you displace the pendulum from equilibrium to an initial angle, θ, and release, the motion will be regular and repeat. This is an example of periodic motion also called simple harmonic motion.
Relative Velocity Lab: PocketLab/Ozobot/LEGO
Introduction to Relative Velocity
Airplanes can experience head winds or tail winds that affect their flight time. Similarly, motorboats on a river experience ground velocities that are dependent on whether they are traveling upstream or downstream. Both of these phenomena are associated with a physics concept known as relative velocity--the main topic of this lab.
Voyager Rides an RC Car for Summertime Fun
RC Car Fun!!!
Here is a fun summertime activity! Race an RC car with PocketLab Voyager. Challenge your friends to see who can negotiate a series of cones in the shortest amount of time without hitting any of the cones. Start and end times are obtained by Voyager's magnetometer as the RC car passes by magnets.
Science Lab: Helmholtz Coils Magnetic Field
Helmholtz Coils
These coils come in pairs with the same number of turns of wire on each of the two coils. In "true Helmholtz" configuration: (1) the coils are wired in series with identical currents in the same direction in each coil, and (2) the coils are placed a distance apart that is equal to the radius of each coil. When in this configuration, they produce a very uniform magnetic field that is directed along their common central axis.
The Magnetic Field Around a Long Current Carrying Wire
Magnetic Fields from Electric Currents
One of the classes of problems dealing with magnetic fields concerns the production of a magnetic field by a current-carrying conductor or by moving charges. It was Oersted who discovered back in the early 1800's that currents produce magnetic effects. The quantitative relationship between the magnetic field strength and the current was later embodied in Ampere's Law, an extension of which made by Maxwell is one of the four basic equations of electromagnetism.
Magnetic Field on a Current Loop's Axis
Introduction
In this lesson students will find that a current-carrying loop can be regarded as a dipole, as it generates a magnetic field for points on its axis. Students use PocketLab Voyager and Phyphox software to compare experiment and theory for the magnetic field on the axis of a current loop. A similar experiment not making use of Phyphox can be found by clicking this link. An experiment making use of a magnet, instead of a
Isaac Newton and the 3rd Law of Motion
Isaac Newton
Isaac Newton is well-known for the apple that hit his head and the discovery of gravity. His three Laws of Motion, however, are among the most famous laws of physics. In this lesson, we are especially interested in Newton’s Third Law of Motion—all forces between two objects are equal in magnitude and opposite in direction. We will be studying collisions between two identical carts that are bouncing back-and-forth, much like a Newton’s cradle with just two steel balls. Repelling magnets attached to the front bumpers of each of the carts al
Magnetic Dipole Experiment: Inverse Cube Law
Introduction
Magnets, from the traditional alnico bar magnets to the modern neodymium magnets, have been of interest to most everyone for decades. The attraction or repulsion of two such magnets when brought close together is particularly interesting. This can be expressed by making quantitative measurements relating magnetic field strength to distance from the magnet.
Physics, Science and Math Days
Amusement parks provide an authentic opportunity to conduct real science and apply physics and math concepts in real-world situations. While visiting an amusement park, not only will you have a fun-filled day of riding rides, but you will get to apply what you have learned about estimation, measurement, motion, forces, gravity, energy, and systems.
Two Voyagers Connected to a Single Device via Phyphox: A Conservation of Momentum Experiment
In the study of collisions between two carts, it is desirable to collect position data for both carts. This can be done with a pair of Voyagers, each connected to separate devices running the PocketLab app. Starting data collection on both Voyagers by simultaneously clicking data recording on both PocketLab apps is difficult. One cannot view the data on a single device in real time, and analysis of data requires combining data from two separate devices.