insulator
If you have two pieces of wire that allow electrons to flow freely, connecting them allows electrons to move between the wires, creating an electric circuit. This flow of electrons can power devices or complete electrical systems.
Electrical energy flows through the copper wire when connecting the two ends of a battery. This energy is in the form of moving electrons that generate an electrical current, allowing for the transfer of energy from the battery to power devices connected to the circuit.
To glue two pieces of cork together, use a strong adhesive such as E6000 or a contact cement. Apply the adhesive to both surfaces, press the pieces together firmly, and allow the glue to dry according to the manufacturer's instructions. Clamp the pieces together if necessary to ensure a secure bond.
To fuse two broken pieces of candle together, you can gently warm the ends of the broken pieces with a lighter or heat source until they start to soften. Then press the softened ends together firmly and hold until they cool and harden, creating a bond between the pieces. Allow the candle to fully cool and solidify before using it again.
If calcium lost two electrons, it would have the same number of electrons as argon. Calcium has 20 electrons in its neutral state, and losing two electrons would leave it with 18 electrons, which is the same as argon.
Fluorine has nine electrons, with two electrons in its inner shell and seven in its outer shell, giving it a total of nine electrons.
When two pieces of metal repel each other, it is because of the interaction between their electrons. Like charges, such as the negative charges on electrons, repel each other according to the laws of electromagnetism. The electrons in the atoms of the metals create an electromagnetic force that pushes the two pieces apart.
a voltage difference between two points in the wire. This creates an electric field that pushes the electrons along the wire, allowing them to flow and carry electrical current.
Yes, a longer wire typically results in higher resistance due to increased resistance caused by the increased length. This is because longer wires offer more resistance to the flow of electrons.
A wire with a larger cross section has lower resistance because there is more space for the electrons to flow through, reducing collisions. A smaller cross section increases resistance as there is less space for the electrons to move, causing more collisions and therefore higher resistance.
To make electrons move along a wire, a source of electrical voltage (such as a battery or power supply) is needed to provide the push or force for the electrons to move. Additionally, there must be a closed circuit or path for the electrons to flow through, typically provided by a conductor like a metal wire.
No, an earth wire has a specific safety role in an electrical circuit that does not allow it to be used as one of the two current-carrying wires.
Get two pieces of bent wire and walk around until they cross.
ELECT. CURRENT IS BASICALLY THE FLOW OF ELECTRONS FROM ONE POINT TO ANOTHER POINT IN THE CIRCUIT. IN, AC IT IS "PUSHED" THROUGH THE WIRE BY THE MAGNETIZED COIL. ELECTRONS ARE AFFECTED BY MAGNETISM. IN DC, ON PART OF THE BATTERY HAS LESS ELECTRONS THAN THE OTHER. WHEN THESE TWO ARE CONNECTED, THE ELECTRONS FLOWS TO THE HUNGRIER ATOMS. THESE PRODUCES CURRENT OR ELECTRICITY IN THE WIRE.
Electronic charges will flow when a potential difference between the two locations, and an adequate path between them exists (with a low enough dielectric constant to allow the flow of charge - such as a wire). Electrons will move from here to there because there are "extra" electrons here, and there's some "missing" electrons there. Electrons have a specific charge. If you have "extra" electrons at one location relative to "missing" electrons at another location, you will have a negative voltage here, and a positive voltage (relative to here) there. This is called a potential difference (or voltage difference).
The presence of an insulating material, such as rubber or plastic, between the two conductors can prevent the flow of electrons. This material acts as a barrier that does not allow the electrons to pass through, thereby creating an electrical insulation.
ELECT. CURRENT IS BASICALLY THE FLOW OF ELECTRONS FROM ONE POINT TO ANOTHER POINT IN THE CIRCUIT. IN, AC IT IS "PUSHED" THROUGH THE WIRE BY THE MAGNETIZED COIL. ELECTRONS ARE AFFECTED BY MAGNETISM. IN DC, ON PART OF THE BATTERY HAS LESS ELECTRONS THAN THE OTHER. WHEN THESE TWO ARE CONNECTED, THE ELECTRONS FLOWS TO THE HUNGRIER ATOMS. THESE PRODUCES CURRENT OR ELECTRICITY IN THE WIRE.
Electrical energy flows through the copper wire when connecting the two ends of a battery. This energy is in the form of moving electrons that generate an electrical current, allowing for the transfer of energy from the battery to power devices connected to the circuit.