# Electricity

Electricity, also called electricity, is one of the four basic forces of nature which interact with each other in different ways. It is composed of a mixture of electromagnetic (electricity) and gravitational (gravity) forces. There are many types of electricity like static electricity, electrical potential energy, and electric and magnetic fields. Electricity has four fundamental characteristics which are kinetic (movement), potential (energy), and electrical.

Electric is simply the collection of electromagnetic phenomena in the form of motion and force of matter with a property of an electrical charge. Electricity is closely related to gravity, both being part of the whole phenomenon of electromagnetic magnetism. Gravity is the theory of how matter becomes attracted to itself by attraction and repulsion forces. On the other hand, electricity has an opposite property where it attracts opposite to itself. The result of these two properties is that there is a flow of electricity throughout all things and objects that have their own magnetic properties.

We can discover these basic properties by observing how electricity flows through us. In this case, we observe electricity flowing from the body and flowing out from the source of the body. As we move, the electrical current will go through our bodies in the form of an electro-magnetic field. We can observe this electro-magnetic field by the use of a magnet.

If we have a magnet in a place where there is a current of electricity, we can find that the magnet will be pulled towards the current. When the magnetic field moves towards a place where there is no electricity, then we can find the magnet in that location to be deflected in the same direction. This way, we can find that the field deflection is due to the presence of electricity. With this knowledge, we can use magnets in order to measure the strength of electricity.

We can also measure the strength of a magnetic field by the use of volt-ampere, another kind of electrical measurement. The higher the voltage of the field, the stronger the magnetic field. Since the strength of an electrical field is inversely proportional to the square of its voltage, we can find that the bigger the field, the stronger the magnetic field becomes. which in turn makes the electric field stronger and therefore makes the electric currents stronger.

In order to measure the strength of voltage, a magnetic field that is equal to the earth’s current voltage is used. When the magnet is positioned near the magnet is not attracted to the current, we can find that the current will go through the magnet will not be attracted to the current. Similarly, when we are near the magnet is attracting the current, we can find that the current will go through the magnet and we will find that the current will not go through the magnet. The magnetic field will be measured by using the difference between the voltage and the current. When the magnetic field is equal to the earth’s current, the magnetic field is said to be parallel to the magnetic field and when it is different from the magnetic field, then the magnetic field is said to be antipodal.

If the magnetic field is parallel to the current, then the electric field is said to be repulsive. If the magnetic field is antipodal, then the current will be repellant and vice versa.

There are many forms of electricity, electric fields, magnetic fields, and electric currents. In order for us to study these fields, the use of a magnet will be of great help.

There are two types of electricity, one is direct current, the other is alternating current. In the former type of electricity, an electric current is run through a coil or a magnet and is collected in a coil or a magnet by a magnet. This then acts on the electricity and it will turn it into a different form of electricity.

In the second type of electricity, the opposite current is also run through a magnet. This is the reason why the voltage is always reversed from direct current.

We can find many kinds of magnets in the market like magnet generators, magnetic motors, magnetic pumps, magnetic resistors, magnetic generators, magnetic connectors, magnetic brushes, magnetic tape, magnetic switches, magnetic couplers, magnetic separators, magnetic sensors, and many more. All these magnets are used in order to make electricity.

#### 1 Comment

1. Pls educate me on this: I used about 0.1hp of electric motor to drive 2.6 generator alternator, but the motor could not turn but was only making a humming noise. Is it that the motor is not big enough to drive the alternator.?