There are two methods of conducting electric charge. Metals conduct electricity because the metallic bond creates a cloud of shared electrons which are highly mobile within the metal. Electrically charged ions can also conduct electricity, so for example, salty water is a good conductor, although pure water is a poor conductor (pure water does contain ions, both H+ and OH-, but in very low concentration).
The Millikan oil drop experiment was conducted by Robert Millikan in 1909 to measure the elementary electric charge (the charge of a single electron). In the experiment, tiny oil droplets were suspended in a chamber between two charged plates. By carefully controlling the electric field, Millikan was able to measure the charge on each droplet and determine the charge of a single electron. This experiment provided important evidence for the quantization of electric charge and contributed to the development of modern atomic theory.
The electric charge of an antineutron is zero, as it is an antiparticle of a neutron which has no electric charge.
A stationary electric charge is called an electric static charge.
An electron has a negative electric charge.
The electric charge of a muon is -1 elementary charge, which is the same as the charge of an electron.
Millikan conducted the famous oil drop experiment to measure the charge of an electron. He observed individual oil droplets in an electric field and determined the fundamental unit of electric charge. This experiment helped to provide a more precise value for the charge of an electron.
Electricity is conducted through different materials based on their ability to allow the flow of electric charge. Materials that conduct electricity well, such as metals, have free-moving electrons that can carry the charge. Insulating materials, on the other hand, do not allow the flow of electric charge easily. The conductivity of a material depends on its atomic structure and the availability of free electrons.
The Millikan oil drop experiment was conducted by Robert Millikan in 1909 to measure the elementary electric charge (the charge of a single electron). In the experiment, tiny oil droplets were suspended in a chamber between two charged plates. By carefully controlling the electric field, Millikan was able to measure the charge on each droplet and determine the charge of a single electron. This experiment provided important evidence for the quantization of electric charge and contributed to the development of modern atomic theory.
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The electric charge of an antineutron is zero, as it is an antiparticle of a neutron which has no electric charge.
The kinds of electric charge are positive charge and negative charge
A stationary electric charge is called an electric static charge.
An electron has a negative electric charge.
Every electric charge is surrounded by an electric field.
The electric charge of a muon is -1 elementary charge, which is the same as the charge of an electron.
Electrons are called electric charge. They are responsible for electric current.
Electric charge is a property of matter that determines how it interacts with electromagnetic fields, while electric current is the flow of electric charge through a conductor. In other words, electric charge is the source of electric current, which is the movement of charged particles.