Electricity Explained Like Water

Just as electricity can make magnetism so magnetism can make electricity.

Electricity explained like water. Electricity explained analogously. The plant produces electricty to meet all the demands of the consumers just like a theoretical river pump would need to meet the water demands at the end of the river. Despite its great importance in daily life few people probably stop to think about what life would be like without electricity. It was used by the physicists at a state s iso independent systems operator that oversaw the reliability of the state s electricity grid to explain how they route electricity to ensure power flows where needed.

There is also a decrease in the amount of water that will flow through the hose. When you pedal your bicycle the dynamo clipped to the wheel spins around inside the dynamo there is a heavy core made from iron wire wrapped tightly around much like the inside of a motor. Everyday we use electricity to do many functions for us from lighting and heating cooling our homes to being the power source for televisions and computers. Yet like air and water we tend to take electricity for granted.

An electric current is a flow of electrons through a conductor like a copper wire. Electricity explained just like pumping water. Electricity is a controllable and convenient form of energy used in the applications of heat light and power. The water analogy is a fitting introduction.

Water flowing through pipes is pretty good mechanical system that is a lot like an electrical circuit. We can think of this as decreasing voltage like when a flashlight gets dimmer as the batteries run down. Why should you understand electricity current and amperes potential difference and volts relationship between potential difference and current sources of potential difference concept of resistance ohms law dc and ac current why. Resistance can be explained as the roughness of the width of the pipe.

Unlike the water pump in our river analogy however the power plant automatically adjusts to meet the demands of the consumer at the end of the wires. We will discuss the following aspects. The three basic principles for this tutorial can be explained using electrons or more specifically. But not squishy like latex tubing.

Increasing the height of the water reservoir increases the potential energy of the water voltage. Since we can t see electrons it would be nice to have a model or an analogy of electric circuits to help us understand circuits better. Like air and water people tend to take electricity for granted. Electricity use has dramatically changed daily life.