How your Batteries Work?-A great simple video to help us all to understand about batteries- Mocomi Kids

How your Batteries Work

Without batteries, the world you grind to an end?. Could imagine the world where all electrical appliances would have to be plugged in. Apart from everything else, we use them to power a range of devices at home. Thereby, this also includes the use of mobility batteries. Mobility batteries are used to help drive mobility scooters and wheelchairs. Batteries are also employed in millions of other things. Of course, the list is endless. From remote controls to powering space projects to Mars.

So, when you watch this video. You will learn about that battery that powers your power tools, remote controlled car, the TV remote or even your toothbrush. This video was originally made for kids to help them understand. Of course, how a battery works. See what goes into its making and how everything comes together. Shows what gives you that power with the help of this active learning module for not just the kids.

A dry cell is a common type of battery used today. It converts stored chemical energy into electrical energy. Most types of batteries work on similar principles. Consequently, the only difference is the materials that are used. Familiar batteries such as the “AA” and “AAA”, have been used as a primary explanation.

How your Batteries Work

Accordingly, a battery cell is made up of three components:
An anode (negative charge)
A cathode (positive charge)
and the electrolyte

In the dry cell, Zinc is the anode (-), the graphite core is the cathode (+) and Ammonium Chloride paste acts as an electrode.

Due to the chemical reaction within the battery, the anode builds up an excess of electrons. This causes an electrical difference between the anode and the cathode. However, the electrons want to rearrange themselves and displace the extra electrons in the cathode. However, the electrolyte ensures the electrons cannot travel directly to the cathode.

When the circuit is closed (with the help of a “conductive path” between the anode and cathode), the electrons can travel to the cathode.Finally, this, in turn, provides power to any appliance placed along the way. presents for How do batteries work?


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