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The electric field produced by a single point charge in vacuum is a force field that surrounds the charge and exerts a force on other charged particles in the vicinity. The strength of the electric field decreases with distance from the charge and follows the inverse square law.

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5mo ago

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What is two or more paths for the electric charge to flow?

Electric charge can flow through conductors such as wires, metals, and liquids. It can also flow through semiconductors like silicon and germanium. In addition, electric charge can move through a vacuum if there is a strong enough electric field, as in a cathode ray tube.


Compare and contrast an electric discharge with an electric current?

An electric discharge is the sudden flow of electricity through a gas, liquid, or vacuum due to a buildup of charge, often resulting in a visible spark. In contrast, an electric current is a continuous flow of electric charge through a conductor. While both involve the movement of charged particles, the key difference is that an electric discharge is a temporary and often localized event, whereas an electric current is a sustained, directed flow of charge.


How do waves travel through vacuum as wave is a disturbance caused in the particles and vacuum does not have any particles?

The vacuum has an "Ether" with z=375 Ohms and it has electric and magnetic charge z=W/Q where W is the vacuum magnetic "charge" in Webers and Q is the Electric charge in Coulombs. Z is related to Planck's Constant h= WQ.Q= 4/3 E-18 Coulombs and W= 500 E-18 Webers.The electromagnetic wave "disturbs" the ether medium.


How many lines of forces would radiate outward from one coulomb of charge in vacuum?

In a vacuum, the number of lines of force radiating outward from one coulomb of charge is infinite. This concept is based on the inverse square law, where the electric field strength decreases as the square of the distance from the charge.


Electromagnetic waves slow down or change direction?

Electromagnetic waves do not slow down in a vacuum. However, they can change direction when they encounter different mediums, such as transitioning from air to glass. This change in direction is known as refraction.

Related Questions

What is two or more paths for the electric charge to flow?

Electric charge can flow through conductors such as wires, metals, and liquids. It can also flow through semiconductors like silicon and germanium. In addition, electric charge can move through a vacuum if there is a strong enough electric field, as in a cathode ray tube.


Why lightning cannot occur in vacuum?

What you see as lightning is air that has been superheated until it glows by an electric charge travelling through it. In a vacuum there is no air, thus no visual.


Does GE make vacuum cleaners?

General Electric (GE) does not currently manufacture vacuum cleaners. Historically, GE produced a variety of home appliances, including vacuum cleaners, but they have since shifted their focus away from this product category. Today, vacuum cleaners are primarily produced by dedicated companies like Dyson, Shark, and Hoover.


Compare and contrast an electric discharge with an electric current?

An electric discharge is the sudden flow of electricity through a gas, liquid, or vacuum due to a buildup of charge, often resulting in a visible spark. In contrast, an electric current is a continuous flow of electric charge through a conductor. While both involve the movement of charged particles, the key difference is that an electric discharge is a temporary and often localized event, whereas an electric current is a sustained, directed flow of charge.


How do waves travel through vacuum as wave is a disturbance caused in the particles and vacuum does not have any particles?

The vacuum has an "Ether" with z=375 Ohms and it has electric and magnetic charge z=W/Q where W is the vacuum magnetic "charge" in Webers and Q is the Electric charge in Coulombs. Z is related to Planck's Constant h= WQ.Q= 4/3 E-18 Coulombs and W= 500 E-18 Webers.The electromagnetic wave "disturbs" the ether medium.


How many lines of forces would radiate outward from one coulomb of charge in vacuum?

In a vacuum, the number of lines of force radiating outward from one coulomb of charge is infinite. This concept is based on the inverse square law, where the electric field strength decreases as the square of the distance from the charge.


Electromagnetic waves slow down or change direction?

Electromagnetic waves do not slow down in a vacuum. However, they can change direction when they encounter different mediums, such as transitioning from air to glass. This change in direction is known as refraction.


Two point charges q1 and q2 are located a distance r apart in a vacuum Which change to the charges will halve the magnitude of the electric charge between them?

Hello, some error in the words. Electric "force" not electric charge. A/s we increase the distance between the charges ./2 times then force between them will be halved.


What was invented first Electric or an an electric vacuum cleaner?

the vacuums go back to the mid 1800s but they became electric in 1910 for the vacuum cleaner , 1931 for the electric guitar.


Are windshield wipers on 1956 thunderbird electric or vacuum?

vacuum


Mentoin two special properties for uniformly charged spherical shell?

From Gauss's Law, Electric Field inside is 0, and it's electric flux is equal to Qenclosed/Eo, where Eo is the electric vacuum permittivity constant. Also, outside of the sphere, it could be treated as a point charge, where the point lies at the center of the shell and has a charge equal to the total charge of the shell.


How are EM waves produced?

In classical physics, EMR is considered to be produced when charged particles are accelerated by forces acting on them. ( Source: Wikipedia) EMR stands for Electromagnetic radiation. The electromagnetic waves that compose electromagnetic radiation can be imagined as a self-propagating transverse oscillating wave of electric and magnetic fields. The two types of fields in EMR waves are always in phase with each other, and no matter how powerful, have a ratio of electric to magnetic intensity which is fixed and never varies. (Source: Wikipedia)