No, it does not.
Yes, I agree. Copper metal conducts electricity through the movement of electrons, which are negatively charged particles. In contrast, a solution containing dissolved ions can conduct electricity because the ions can move and carry charge through the solution.
Electrons are the particles responsible for carrying electricity. When electrons move through a conductor, such as a wire, they create an electric current.
In metals, electricity flows through the movement of free electrons from atom to atom. These electrons can move easily through the material, creating an electric current.
The answer is a little more complex than a neat, pat answer. Electric flow may be seen as forward propagation of electrons, or backwards propagation of positive "holes" which may move through or around a medium, or as the movement of ions through a medium. Depending on the dielectric strength of an insulator, and the voltage/amperage of the charge in question, the electricity may move through, over, or around an insulator.In some cases, an electric current can move easily through both an insulator and a conductor, but in most cases, electricity moves easiest through a conductor. Conductors are usually metals or metalloids that have are joined together through metallic bonding. Metallic bonding results in positive metal ions floating in a sea of electrons. The "delocalized nature" of the electrons (electrons spread out) allows charge to flow easily through a conductor.
The electricity is build up when electrons (negative charged particles of an atom) move in a conductor (eg. metal, wire, water) in a closed loop. This is also known as current. Just like water flow in a set of pipes. Static electricity is somehow the contrary. Static electricity is all about charges which are not free to move. This causes them to build up in one place and it often ends with a spark or a shock when they finally do move.
rubber would be an example of something that does not allow electricity to move through it easily
A battery supplies energy to move electricity through a circuit (Remember, a circuit is a wire.)
A circuit.
Electricity can move through materials that conduct electricity well, such as metals like copper and aluminum. It can also move through materials that allow some level of conductivity, like water and the human body. Insulating materials, such as rubber and plastic, prevent the flow of electricity.
Electrons move through the wire
Circuit
rubber would be an example of something that does not allow electricity to move through it easily
electricity
Electricity moves through materials when there is a flow of charged particles, typically electrons, along a pathway provided by the material's structure. Conductive materials such as metals have free electrons that can move easily through the material, allowing electricity to flow. Insulating materials, on the other hand, impede the flow of electrons, preventing electricity from moving through them.
Electricity only moves through the air if there are electrically charged particles in the air and a live current passed through it. It also travels in the form of static electricity (lightning).
electricity
Static electricity does not move, as it stays in one place until it is discharged through a conductor. Static electricity is the build-up of electric charge on the surface of objects due to an imbalance of electrons.