on video The Big Misconception About Electricity

 

Just think about how energy reaches us from the power station, where it is generated. There is no single cable connecting our homes with the energy producing companies. Actually, there are a lot of gaps in the electrical grid, where the circuit is interrupted by an open space. This happens in transformers, for instance. Electrons cannot flow through this gap, or can they?

Watch the following video explaining what phenomenon exactly acts as an energy carrier in electrical circuits:

 

Just think about how energy reaches us from the power station, where it is generated. There is no single cable connecting our homes with the energy producing companies. Actually, there are a lot of gaps in the electrical grid, where the circuit is interrupted by an open space. This happens in transformers, for instance. Electrons cannot flow through this gap, or can they?

Watch the following video explaining what phenomenon exactly acts as an energy carrier in electrical circuits:

 

Just think about how energy reaches us from the power station, where it is generated. There is no single cable connecting our homes with the energy producing companies. Actually, there are a lot of gaps in the electrical grid, where the circuit is interrupted by an open space. This happens in transformers, for instance. Electrons cannot flow through this gap, or can they?

Watch the following video explaining what phenomenon exactly acts as an energy carrier in electrical circuits:

 

Just think about how energy reaches us from the power station, where it is generated. There is no single cable connecting our homes with the energy producing companies. Actually, there are a lot of gaps in the electrical grid, where the circuit is interrupted by an open space. This happens in transformers, for instance. Electrons cannot flow through this gap, or can they?

Watch the following video explaining what phenomenon exactly acts as an energy carrier in electrical circuits: