"Educational Materials"

Measure the Specific Gravity of Gemstones and Minerals with Ease

NewPath’s Osmosis and Diffusion Curriculum Learning Module provides a complete set of visual, digital and hands-on resources designed to support teacher instruction and provide students with the skills to master key concepts on Osmosis and Diffusion.

The determination of the gravitational constant ‘g’ is one of the most fundamental and early physical constants students must derive and observe. This kit has a wooden base, 1.1m rod and a movable electromagnet. The electromagnet can be moved anywhere on the rod and is powered by the timer. When the ball is released, the timer is triggered and stopped once the ball has landed on the base for a precise measurement and then calculation of ‘g’. Supplied with manual.

Barlow's wheel ideal for demonstrating Lorentz force.

Pre-built cards for student practice.

NewPath’s Human Body II: Providing Fuel and Transportation Curriculum Learning Module provides a complete set of visual, digital and hands-on resources designed to support teacher instruction and provide students with the skills to master key concepts on the Human Body.

How Do Common Household Chemicals React?

Classroom electroscope housed in a 250 ml borosilicate flask.

Perfect For Training.

Ring thrower kit for studying eddy currents, Lenz Law, and Faraday's Law. Includes two aluminum rings.

The Lenz's Law Kit investigates how much force an induced magnetic field can create.

4 Transparent plates to demonstrate magnetic fields.

Power three different solar vehicles — a solar speed boat, an air boat, and a surface submarine — using only the power of the sun. Build three vessels out of your recycled plastic beverage bottles then power them with the sun using the included 1/2 watt, waterproof solar panel. You can build a solar speed boat, an air boat, and a surface submarine. No batteries required.

The programmable robotic vehicle that drives conceptual curiosity in math, science and coding.

Explore the physics of projectile motion, trajectory path, velocity, acceleration, friction and more.

Prove the Heisenberg uncertainty principle by manipulating the diffraction variables of wavelength and slit width