Current defined as Positive charge flow , flows from higher potential to the lower.
Current defined as electron flow, flows from lower potential to higher.
In general Potential and Current are defined by positive charge.
Conventional current is the flow of positive charge from higher potential to lower potential, while electric current is the flow of electrons from lower potential to higher potential.
Energy tends to flow from a higher potential to a lower potential due to the principle of entropy, which states that systems tend towards disorder and equilibrium. This flow represents a natural tendency for systems to reach a state of balance and minimal energy.
Electrons flow in an electric circuit from an area of higher potential energy (positive terminal of the battery) to an area of lower potential energy (negative terminal of the battery). This flow of electrons is what creates an electric current in the circuit.
Voltage potential is the force that pushes electrical current through a circuit. The higher the voltage, the greater the potential for current flow. In other words, voltage drives the flow of current in a circuit.
Electric current always flows from high potential to low potential. This creates the flow of electric current in an electric circuit.AnswerIn a metal conductor, current is defined as a drift of free electrons. As electrons are negatively charged, this means that current drifts along a conductor from a negative potential to a positive potential.However....Current direction is often defined as a drift from a positive potential to a negative potential. This is termed 'conventional flow', and dates back to when scientists, such as Benjamin Franklin, believed that current was some sort of fluid that flowed from a higher pressure ('positive' pressure) to a lower pressure ('negative' pressure). Although incorrect, conventional flow is still widely-used today in many textbooks.
Conventional current is the flow of positive charge from higher potential to lower potential, while electric current is the flow of electrons from lower potential to higher potential.
conventional current flow means the natural tendency of a current to flow ie)source to load,towards low resistance,higher potential to lower potential
Electronsflow from areas of lower to higher voltage, while Current flow from areas higher to lower 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
The electricity will flow from higher potential to lower potential in a closed circuit.
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'.
This answer depends on who you are asking some people say it flows from negative to positive and others say its the other way around but really it doesn't matter that much because normal 60Hz AC changed direction 60 times a sec
It flows from higher potential to lower potential. simply opposite to direction of electrons flow...
Energy tends to flow from a higher potential to a lower potential due to the principle of entropy, which states that systems tend towards disorder and equilibrium. This flow represents a natural tendency for systems to reach a state of balance and minimal energy.
Electrons flow in an electric circuit from an area of higher potential energy (positive terminal of the battery) to an area of lower potential energy (negative terminal of the battery). This flow of electrons is what creates an electric current in the circuit.
Voltage potential is the force that pushes electrical current through a circuit. The higher the voltage, the greater the potential for current flow. In other words, voltage drives the flow of current in a circuit.
Electric current always flows from high potential to low potential. This creates the flow of electric current in an electric circuit.AnswerIn a metal conductor, current is defined as a drift of free electrons. As electrons are negatively charged, this means that current drifts along a conductor from a negative potential to a positive potential.However....Current direction is often defined as a drift from a positive potential to a negative potential. This is termed 'conventional flow', and dates back to when scientists, such as Benjamin Franklin, believed that current was some sort of fluid that flowed from a higher pressure ('positive' pressure) to a lower pressure ('negative' pressure). Although incorrect, conventional flow is still widely-used today in many textbooks.