There is a direct relationship between the voltage gradient of an electric field and the separation of the charges. Higher voltage gradients will separate charges farther.
... electrically charged.
no, x rays are not charged particles. electric field can apply force only on charged particles like electrons and protons.
The force between two charged particles is called the coulomb force.
One way to produce an electric field is through the presence of charged particles. When charged particles, such as electrons or protons, are stationary or in motion, they generate an electric field around them. Another way to produce an electric field is through changing magnetic fields. According to Faraday's law of electromagnetic induction, a changing magnetic field induces an electric field, causing the flow of electric charges.
distance between charged particles.
conclusion of electric current
Electricity involves charged particles. An electric current involves the movement of charged particles. These charged particles MAY be electrons, and often are; but it is possible to have an electric current with many other types of charged particles.
Protons are the only positively charged particles in an atom.
electrons
electric current
... electrically charged.
electrons
no, x rays are not charged particles. electric field can apply force only on charged particles like electrons and protons.
Electricity is related to the movement of charged particles.
Electrical energy is energy that's stored in charged particles within an electric field. Electric fields are simply areas surrounding a charged particle. In other words, charged particles create electric fields that exert force on other charged particles within the field. The electric field applies the force to the charged particle, causing it to move - in other words, do work.
the protons are positively charged particles neutrons are particles that have no electric charge and electrons are negatively charged particleus.
yes