Make a real galvanic battery from potatoes to power a digital clock!
Zinc and copper electrodes create an electrochemical reaction to generate voltage and converts the chemical energy stored in the metal strips into electrical energy.
Learn how to wire up a simple circuit!
Experiment with different items too... not just the potato! Try salt water, fruit juices, lemon, orange or tomatoes!
A unique experimental kit that inspires young scientists.
The mini LCD clock (66x32x11mm) with stand shows the time, month & day, with 2 buttons on the clock to adjust the time.
Environmentally friendly, lightweight, easy to use.
How does it work?
The metal strips and potatoes make a simple battery that creates electricity to operate the clock. Each potato works as a device called a electrochemical cell. it converts the chemical energy stored in the metal strips into electrical energy.
Two potatoes are needed to make electricity strong enough to run the clock.
A cell works because of the chemical properties of the metals inside (in this case the copper and zinc). The different properties cause tiny particles charged with electricity(called ions) to move between the two strips of metal. This flow is an electric current. The potato contains the particles that allow the current to flow, but it stops the metals touching. The electric current also flows along the wires between the zinc and copper strips and the clock. This current makes the clock work.