Bio-Innovation

Our Bio-Innovation Curriculum sits at the crossroads of engineering and biology and involves using common materials such as belts, soda cans, and candles to model real-life systems such as greenhouses and water pumps.

Greenhouse Simulation

Students will construct a miniature greenhouse made of glass that replicates key qualities of a greenhouse, including a higher interior temperature compared to the exterior.

Create a Fire with a Lens

Use the properities of a lens to concentrate the convergence of light rays to a single point.

Irrigation System

Use the laws of physics to create an irrigation system– a network of pathways for water to take, so it can be distributed evenly through a field.

Water Pump

Create an instrument that can move water against gravity up a structure. 

Natural Batteries

Find common products that can generate an electric current when connected in a circuit.

Create a Motor System

Build an efficient motor from readily available materials.

Efficient Mini Windmill

Create a working windmill that can generate electricity, trying to maximize the productivity to size ratio

Self-Powered Pulley System

Construct a pulley system where the effort applied is multipled several times that bust by slightly nudging the object of tension.

Lightning Rod

Construct a lightning rod, which is used to protect houses from being burned by lightning strikes

Stirling Engine

Create a miniature version of an engine that can power the movement of a small whell using eco-friendly fuel.

"Why do we need to learn this?"

You might have heard this phrase or even said it yourself. Too often, concepts are taught in class without explanation of why or how it connects to the real world. At JMA, we’re focused on application of material. The Bio-Innovation Curriculum is tailored to taking concepts you’ve learned in class and showing you how to use this knowledge to make a real impact.