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The force moving electrons in electricity is called resistance. The electrons move toward a path of least resistance. The current is the actual movement of the electrons in a specific direction.
The movement of electric charge is known as an electric current, the intensity of which is usually measured in amperes
Current that flows in a wire is consists of electrons. The electrons bear negative charges.
That's just in convention, in line with other electric convention. It is common to use positive charges as a standard; for example, a current is usually defined as a movement of positive charges. If the actual charges happen to be negative (for example, electrons), the "conventional current" simply flows in the direction opposite to the flow of electrons.
An isolated positive and negative can move for example in an electric or magnetic field. But in metals only the electrons can move since the positive charge is bound to the metal lattice by attractive forces.
The force moving electrons in electricity is called resistance. The electrons move toward a path of least resistance. The current is the actual movement of the electrons in a specific direction.
The movement of electric charge is known as an electric current, the intensity of which is usually measured in amperes
false
Current that flows in a wire is consists of electrons. The electrons bear negative charges.
No electric charges may be positive or negative - electrons have a negative charge; ions have a positive charge.
False. 1. Electricity involves the movement of electrical charges. The most common case is the movement of electrons (a negative charge), but other possibilities exist, such as movement of charges through ions (positive or negative), or holes (positive). 2. Even stating that electricity IS a flow of charged particles is a gross and misleading simplification. An electrical current INVOLVES the flow of charges, but that does not fully describe an electrical current.
Electrons do not flow, but they might be though of as 'flowing' as they transfer charges between them. The reason that electron flow is the opposite direction from current is that historical theories of electrical flow (current) treated it as a movement of positive charges rather than negative charges.There is no actual difference that could be discerned, except that we now know that negative charges (electrons) constitute the basis of most common electricity.
Electrons are a negative charge. Using conventional notation current flows from positive to negative poles of a battery, for example. In electron flow convention the electrons flow from negative to positive.
Electrons are a negative charge. Using conventional notation current flows from positive to negative poles of a battery, for example. In electron flow convention the electrons flow from negative to positive.
That's just in convention, in line with other electric convention. It is common to use positive charges as a standard; for example, a current is usually defined as a movement of positive charges. If the actual charges happen to be negative (for example, electrons), the "conventional current" simply flows in the direction opposite to the flow of electrons.
A conventional current is a fictitious current - a flow of positive charges. If the real current consists of electrons, the conventional current flows in the opposite direction as the electron movement. The real current may also consist of other charged particles, for example positive or negative ions in a solution.
No. There are 3 parts in the atom, which are: Proton-Positive charge Electron-Negitive charge Neutron-Neutral/No charge So protons are what carry the positive charge, where as neutrons dont carry any charge.