At home electricity runs the lights, television, toaster and more. Electricity is a form of energy. Energy is power, the power to do and move things, and to make things work. Electricity is made up of atoms. An atom centre includes at least one proton and neutron. At many a least one electron travels around the centre of the atom at a huge amount of speed. The movement of electrons produces electricity.
There are many ways of finding electricity or getting electrified.
There are also many kinds of electric types, for example static electricity. To learn about static electricity you have to learn about the nature of matter. In other words, what is all the stuff around us made of? If you walk across a rug, and reach for the doorknob you will receive a static electric shock. Or, if you come inside from the cold, pull off your hat and all your hair stands on end. You will also receive an electric shock.
The movement of electricity is very dangerous. If electricity travels through you, you could easily, seriously get hurt or even die. Electricity can travel through you, if you touch an electric circuit and the ground at the same time; you become electricity’s easiest path. You can avoid these kinds of accidents by keeping all electrical appliances away from water. This is because water is a great conductor of electricity. Another way to avoid is to make sure your hands are dry when you are about to anything electrical.
An additional way to avoid electrical accidents is to not use water when putting out an electrical fire. However you should use a multipurpose fire extinguisher.
A current is the flow of electrons. A voltage calculates how much energy the light bulb takes up, by calculating the energy before it reaches the bulb and after. The relationship between a current and a voltage is that both calculate electrons but in a different way. A current calculates the flow of electrons. However a voltage calculates the amount of electronic energy the bulb takes up. For electricity to travel where we need it to travel, there must be a complete circuit of electricity. A circuit is like a circle. To complete a circuit you first need to connect one end of each wire to the light bulb base. Then you tape one free wire end to each end of the battery. In this experiment you need a cell battery, a volt light bulb, a light bulb base, masking tape, and a strand copper wire.
Electricity is useful as I have written before that it runs the lights, television, toaster, and more. It’s hard to even imagine what your life would be like without it. The more you know about how electricity works. The better you can keep yourself, your friends, and your family safe! You receive an electric shock when an electric current enters your body. You can help someone when they get a shock in many ways. You can help someone who gets an electric shock by either shutting off the source of electricity if you can without hurting yourself. You can use a non-conducting object like a wooden broom if you need to break the connection between the person and the current.
After you get that person no longer in contact with the current, check the persons breathing. If it’s rapid, irregular, or stopped, have someone else call emergency. If the person is fine look for burned skin, if he/she has no burned skin it could still be deep and painful in the inside. You can practice safety at home by replacing frayed wires, when you are outside, especially after a storm, watch out for broken poles and downed wires, and make sure appliances are turned off when not in use. You can also practice safety at school by teachers teaching you. You could also practice safety at school by keeping a fair distance away from fire or electricity or even electric wires while doing an experiment and it is not turned off.
Basics of Electricity Safety. (2017, Dec 05). Retrieved from https://paperap.com/basics-of-electricity-safety/