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Electrons move across the terminals of a filament in a light bulb in one direction for 1/120th of a second, and they move in the opposite direction for the next 1/120th of a second. Yes, electrons through a light bulb flip direction 120 times every second.

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Is true of the flow of electricity through a DC circuit?

In a direct current (DC) circuit, electricity flows in a single, constant direction from the positive terminal to the negative terminal of the power source. The flow of electrons moves from the negative terminal to the positive terminal, but conventional current is defined as flowing in the opposite direction. DC circuits typically have a steady voltage, resulting in a consistent current, making them suitable for applications like batteries and electronic devices. The resistance in the circuit affects the current flow according to Ohm's Law, which states that current equals voltage divided by resistance (I = V/R).


Why the current not flowing through the wire when one end is connected to the positive terminal and the other end is let open why the positive potential does not affect the electrons in the wire?

since it is not grounded ,it does not accept the flow of current


What Electron flow is a DC circuit is?

Electron flow in a DC (direct current) circuit refers to the movement of electrons from the negative terminal to the positive terminal of a power source, such as a battery. In a DC circuit, the current flows in a constant direction, allowing for a steady and predictable energy transfer. This flow is driven by the electric potential difference, or voltage, created by the power source, which pushes electrons through the circuit components. The continuous flow of electrons powers devices and systems connected within the circuit.


Describe the path that the electricity follows in sequence to light the bulb in your complete circuit?

In a complete circuit, electricity flows from the power source, such as a battery, through the positive terminal. It travels through the conductive path of wires to the bulb's socket, where it energizes the filament or LED element, causing it to emit light. The current then returns to the power source via the negative terminal, completing the circuit. This continuous flow of electrons allows the bulb to light up.


When electric circuit is closed no current flow through it IS the statement is correct?

yes... this is possible if a diode i connected in reverse bias with a battery and a resistor for example. A diode in reverse bias means its anode will be connected to positive terminal of the battery and its cathode to the negative terminal of the battery. In such a case, minimal current flows through the circuit which can be neglected.

Related Questions

When a dry cell is connected in a series the flow of electrons moves from the positive or negative terminal to the positive or negative terminal?

When a dry cell is connected in a series, the flow of electrons moves from the negative terminal to the positive terminal. Electrons are negatively charged particles and are attracted to the positive terminal while repelled by the negative terminal. This movement creates an electric current that flows through the circuit.


The shortage of electrons exists at the blank termnal of a dry cell?

The shortage of electrons exists at the positive terminal of a dry cell. These positive terminals attract electrons, creating a flow of current from the negative terminal to the positive terminal through an external circuit.


What is the positive terminal of a diode known as?

It is called the positive + terminal or post, just like you list. Electrons flow for the negative - to the + terminal contrary to popular belief.Another AnswerAs electrons flow through the external circuit from anode (negative terminal) to the cathode (positive terminal) , then the answer is 'cathode'.


What is the positive terminal of the battery called?

It is called the positive + terminal or post, just like you list. Electrons flow for the negative - to the + terminal contrary to popular belief.Another AnswerAs electrons flow through the external circuit from anode (negative terminal) to the cathode (positive terminal) , then the answer is 'cathode'.


What particle moves when electricity flows through a circuit?

Electrons are the particles that move when electricity flows through a circuit. They carry a negative charge and flow from the negative terminal of the power source to the positive terminal.


What flows through wires that are hooked to a battery?

Electrons flow through wires that are hooked to a battery. The battery's negative terminal repels the electrons, while the positive terminal attracts them.


Do electrons come out of the negative or positive terminal?

Electrons are negatively-charged particles that flow out from the negative terminal and into the positive terminal of a battery. It was once assumed that moving particles had a positivecharge, and so this conventional current flow set the original arrow direction, still shown on diodes and junction transistors.


Where do electrons leave from a flashlight battery?

Electrons leave a flashlight battery from the negative terminal. When the circuit is completed by turning on the flashlight, electrons flow from the negative terminal through the circuit to the positive terminal. This flow of electrons generates electric current, powering the flashlight's bulb.


Where do electric current move?

Electric current moves through wires or conductive materials in a closed loop circuit, from the positive terminal of the power source to the negative terminal. Electrons carry the negative charge and flow from the negative terminal to the positive terminal.


In a battery electrons flow from where?

In a battery, electrons flow from the negative terminal (anode) towards the positive terminal (cathode) through the external circuit, creating an electric current.


What part of the atom is moving through the circuit?

In a circuit, it is the electrons that move through the wires and components. Electrons are negatively charged particles that flow from the negative terminal of the voltage source (such as a battery) towards the positive terminal.


Why is it necessary that an electron returns to the positive terminal of the battery each time another electron leaves the negative terminal?

Electrons are negatively charged, and so are attracted to the positive end of a battery and repelled by the negative end. So when the battery is hooked up to something that lets the electrons flow through it, they flow from negative to positive.