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What else can I help you with?
Operation of led diode?
LED diode:when certain amount of voltage is applied to LED diode the electrons which are present in lower energy level jumps in to higher energy level after certain time the electrons in the higher energy level again jumps in to lower energy level .while jumping from higher energy level to lower energy level electrons emits energy in the form of light(visible or invisible)
The larger the conductor the Higher the resistanc Lower the ampacity Higher the voltage Lower the resistance?
No. The larger the conductor the lower the resistance and the higher the ampacity.
Why current flow from higher voltage to lower voltage?
Normal flow of electrons are from positive to a less negative potential. When a potential is applied meaning voltage electrons leave their orbit and move to another nucleus leaving at the same time a hole to be fill out by the next electron coming in. In essence electrons flow one way and holes flow in the opposite direction. It is possible to have -100v flowing into a -90v. electrons do not know what the potential can be raised to all they know is the differential potential of 10 v in this caseAnswerIt doesn't. If flows from a higher potential to a lower potential. Voltage means 'potential difference', which is quite different.A 'higher potential' is conventionally taken as meaning 'more positive', while a 'lower potential' is taken as meaning 'less positive'. The direction of conventional current (plus to minus), therefore, is from a higher potential to a lower potential.Electrons, on the other hand, move from negative to positive, so they move from a 'lower potential' to a 'higher potential'.
In a wire electrons moves by current or voltage?
See voltage means potential difference. Electrons move from higher potential to lower potential always. In wire same thing happens. So electrons flow because there is potential difference and flow of electrons causes current to flow. current is nothing but flow of electrons. reply if u r satisfied @ rahul.khaladkar@rediffmail.com
What is the purpose of capacitor in power supply higher than rated voltage?
The voltage marked on a capacitor is its MAXIMUM SAFE WORKING VOLTAGE. The capacitor will work in a circuit at any voltage lower than that, but it may fail at any higher voltage.
What direction do electrons move?
Electrons typically move from areas of higher voltage to areas of lower voltage, following the path of least resistance in a circuit. This movement creates an electric current.
What force pushes electrical current through wires and conductors?
Voltage is the force that pushes electrical current through wires and conductors. It creates an electrical pressure that drives the flow of electrons from areas of higher voltage to areas of lower voltage. This difference in voltage is what causes the electrical current to move through the circuit.
How electric current passes through conductor?
Electric current passes through a conductor when a voltage is applied across it, creating an electric field that pushes charged particles (electrons) through the material. The electrons move in response to this field, flowing from areas of higher voltage to areas of lower voltage. The amount of current that passes through the conductor depends on the material's conductivity and the applied voltage.
What is the force that causes electrons to flow through a conductor known as?
The force that causes electrons to flow through a conductor is known as voltage or electromotive force (EMF). Voltage provides the "push" or potential difference that drives electrons from areas of higher potential to lower potential, resulting in an electric current.
Is it true that electrical current flows from a state of rest to a high pressure state?
No, it is not true. An electrical current (which is a flow of electrons) can only flow from a higher pressure state (higher voltage) to a lower pressure state (lower voltage).
What driving force which causes electrons to flow through conductors is called?
The driving force that causes electrons to flow through conductors is called voltage. Voltage creates an electric field that pushes the electrons in a circuit, enabling them to move from higher potential to lower potential.
What does voltage do to electrons?
Voltage can push or pull electrons through a conductor. A higher voltage will result in more electrons moving, while a lower voltage will cause fewer electrons to flow. Voltage is the driving force behind the movement of electrons in an electrical circuit.
When a circuit is inductive the current has what voltage?
This doesn't make sense, "current" is "amperage" so the higher the voltage the lower the amperage, and the lower the voltage the higher the amperage.
WHAT PUSHES THE ELECTRONS TO FLOW?
Electrons flow in a circuit due to the electric potential difference, or voltage, between two points. This voltage creates an electric field that exerts a force on the electrons, causing them to move from a higher potential (positive terminal) to a lower potential (negative terminal).
What is the force that causes electrons to move in an electrical circuit?
The force that causes electrons to move in an electrical circuit is called voltage. Voltage is the difference in electric potential between two points in a circuit, which creates an electric field that pushes the electrons to flow from the higher potential to the lower potential.
Operation of led diode?
LED diode:when certain amount of voltage is applied to LED diode the electrons which are present in lower energy level jumps in to higher energy level after certain time the electrons in the higher energy level again jumps in to lower energy level .while jumping from higher energy level to lower energy level electrons emits energy in the form of light(visible or invisible)
How is voltage produced in electrical circuits?
Voltage is produced in electrical circuits through the movement of electrons from a higher potential to a lower potential, creating a difference in electric potential that results in the flow of electricity. This difference in potential is what we measure as voltage.
