0
What else can I help you with?
What happens to a battery when you move it closer to a circuit?
When you move a battery closer to a circuit, it can create a potential difference that may influence the circuit's electrical behavior. If the circuit is designed to connect to the battery, bringing it closer can facilitate a connection, allowing current to flow and powering the circuit. However, if the circuit is not designed to connect to the battery, there may be no effect. The battery's proximity alone doesn't change its stored energy; it simply affects the potential for electrical interaction.
What would happen if there was only positive electrodes in a circuit?
Nothing. The reason a circuit works is that there is an imbalance between the positive and negative (cathode and anode) ends of the battery. two positive ends wouldn't move anything.
Why can metals conduct electricity but remain unchanged?
Only the free valence electrons forming the electron "gas" move and as many move in as move out. Only metals form this electron "gas".
What is the difference between a series circuit and as parallel circuit?
series circuit can only move on one patha parallel circuit has two more paths for the electric carve to follow
What is The flow of electrons through a circuit is called a?
The flow of electrons through a circuit is called an electric current. It is typically measured in amperes (amps) and can flow in two forms: direct current (DC), where electrons move in a single direction, and alternating current (AC), where the direction of electron flow periodically reverses. Electric current is essential for powering electrical devices and systems.
Does the same electron move in the whole circuit?
No, electrons move in a circuit in a continuous flow called an electric current. Electrons move from the negative terminal of the battery, through the circuit components, and return to the positive terminal. Each electron only moves a short distance within the circuit before passing its energy to the next electron.
Does a battery supply the electrons in an electric circuit?
No, is it incorrect to say that a battery produces the charges that circulate in a circuit. Some might suggest that a battery is a current source, but the battery should most properly be considered a voltage source. It generates the electromotive force (emf or voltage) that causes charges to move. (It does this through electrochemical reactions.) The charges that circulate in a circuit (which might be termed the current flow) are already in the conductor and components. All the battery does is produce the voltage (the force) to move charges. Let's look at current flow and see why things might be best looked at in the manner we've stated.Note that the way a battery moves charges is to "inject" an electron into the circuit where it is tied to the negative terminal of that battery. The electron causes one electron in the circuit at the terminal to "move over" and that will cause another electron to "move over" and so on. This will continue until the "last electron" in the circuit at the positive terminal of the battery leaves the circuit and "goes into" the battery. Current flow in the circuit is like musical chairs with electrons everywhere in the circuit "moving over a space" to cause the current flow.Having gone through all that, it should be easier to see why a battery probably should not be considered the producer of charges that circulate in a circuit. Rather, the battery is the source of the voltage that drives the charges (the current) in the circuit.
How a battery cause electron in move in a circuit?
It is an oxidation/reduction reaction. Electrons flow from anode to cathode.
What causes current to flow from one terminal of the battery to the other?
Current flows from one terminal of a battery to the other due to the movement of electrons within the circuit. When a circuit is completed, electrons are pushed by the battery's voltage to move through the circuit, creating an electric current.
Describe how a battery causes electrons to move in a circuit?
The electrons don't actually move the electricity; the charge moves. The electrons slowly drift in the opposite direction from the charge.
What do Electrons move in a circuit and have millions of?
Electron cloud i think.
Do electrons from a battery reach the bulb before it lights?
No, electrons from a battery don't reach the bulb before it lights. An electric current is not simply a flow of electrons. Rather, an electron in a circuit will move only a short distance and then nudge another electron into motion, which will do the same thing with yet another electron. So while the current moves through the entire circuit, individual electrons do not unless it is left on for a very long time.
What supplys energy to move electricity through a circuit?
A battery supplies energy to move electricity through a circuit (Remember, a circuit is a wire.)
What supplies energy to move through a circuit?
A battery
What is th potential difference that causes charges to move in a circuit?
The answer is voltage, resistance, electric discharge, and current. It is caused by a difference in energy stability between two points that favors a charge to move down a potential difference.
When wires are connected to the terminals of a battery. what causes electric current in the circuit?
The electric current in a circuit is caused by the flow of electrically charged particles, typically electrons, through the wires. When the battery is connected, it creates a potential difference (voltage) that pushes the electrons to move from the negative terminal to the positive terminal, creating a continuous flow of current in the circuit.
What happens to a battery when you move it closer to a circuit?
When you move a battery closer to a circuit, it can create a potential difference that may influence the circuit's electrical behavior. If the circuit is designed to connect to the battery, bringing it closer can facilitate a connection, allowing current to flow and powering the circuit. However, if the circuit is not designed to connect to the battery, there may be no effect. The battery's proximity alone doesn't change its stored energy; it simply affects the potential for electrical interaction.
