1.lightning
2.sparks of static electricity
They can, but not required.
You need two separate 240 VAC circuits from your electric panel that are each rated at 30 amps if they are electric dryers.
Based on the electric supply electric machines are classified in to two types namely AC and DC machines. These are further classified in to different ones.
batteries and generators
examples of engineering and non engineering?
Two examples of an electric discharge are lightning, where electricity is discharged from clouds to the ground or between clouds, and a spark from a power outlet when a plug is inserted or removed quickly.
I believe this answer that each of these two are powered by different things.
A static discharge is a sudden flow of electricity between two objects with different electric potential, whereas an electric current is a continuous flow of electric charge in a closed circuit. Static discharge occurs due to a build-up of static electricity, while electric current flows due to an applied voltage.
An electric discharge is a sudden flow of electricity between two charged points, often resulting in a spark or lightning. An electric current is a continuous flow of electric charge along a conductor, such as a wire. While both involve the movement of electricity, an electric discharge is typically a short-lived event, whereas an electric current is sustained over time.
A static discharge is a sudden, brief flow of electricity between two objects with different electrical charges, often caused by friction or contact. It differs from an electric current, which is a continuous flow of electric charge through a conductor.
Static electricity is buildup of electric charge on the surface of an object. When the charge accumulates to a certain level, it can form an electric discharge, which is a sudden flow of electric current between two charged objects. This discharge results in the release of stored electrical energy in the form of heat, light, and sound.
Volcanic gases and ash are two examples of secondary pollutant
An electric discharge occurs when there is a build-up of electric charge in a medium that exceeds the medium's ability to insulate or contain the charge. This excess charge will rapidly move through the medium in the form of a visible discharge, such as lightning or a spark, to restore equilibrium.
An electric discharge between two oppositely charged surfaces is commonly known as an electrical spark. This discharge occurs when the electric field between the charged surfaces becomes strong enough to overcome the insulating properties of the surrounding medium, resulting in a sudden flow of electricity in the form of a spark. This phenomenon is often seen in lightning bolts, electric arcs, and static electricity discharges.
The material between two charged bodies that prevents the discharge of electricity is an insulator. Insulators have high resistivity, which inhibits the flow of electric current between the charged bodies. Examples of insulating materials include rubber, glass, and plastic.
An electric discharge between two oppositely charged surfaces is called static electricity. This phenomenon occurs when an excess of electrons is transferred from one surface to another, resulting in a build-up of charge that can discharge in the form of a spark.
wind and water