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Electron Flux Density Calculator

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Electrons and Holes Energy Band and Charge Carrier Semiconductor Carriers SSD Junction

✖Mean Free Path electron is defined as an average distance travelled by a moving electrons between successive impacts, which modifies its direction or energy or other particle properties.ⓘ Mean Free Path Electron [L_e]			+10% -10%
✖Time can be defined as the ongoing and continuous sequence of events that occur in succession, from the past through the present to the future.ⓘ Time [t]			+10% -10%
✖Difference in Electron Concentration is defined as the difference between the electron density of two electron.ⓘ Difference in Electron Concentration [ΔN]			+10% -10%

✖Electron Flux Density refers to the quantity of electrons per unit volume in a given material or region. It represents the measure of how many electrons are present in a specific space or volume.ⓘ Electron Flux Density [Φ_n]

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Electron Flux Density Solution

STEP 0: Pre-Calculation Summary

Formula Used

Electron Flux Density = (Mean Free Path Electron/(2*Time))*Difference in Electron Concentration
Φ_n = (L_e/(2*t))*ΔN
This formula uses 4 Variables

Variables Used

Electron Flux Density - (Measured in Tesla) - Electron Flux Density refers to the quantity of electrons per unit volume in a given material or region. It represents the measure of how many electrons are present in a specific space or volume.
Mean Free Path Electron - (Measured in Meter) - Mean Free Path electron is defined as an average distance travelled by a moving electrons between successive impacts, which modifies its direction or energy or other particle properties.
Time - (Measured in Second) - Time can be defined as the ongoing and continuous sequence of events that occur in succession, from the past through the present to the future.
Difference in Electron Concentration - (Measured in 1 per Cubic Meter) - Difference in Electron Concentration is defined as the difference between the electron density of two electron.

STEP 1: Convert Input(s) to Base Unit

Mean Free Path Electron: 25.47 Micrometer --> 2.547E-05 Meter (Check conversion here)
Time: 5.75 Second --> 5.75 Second No Conversion Required
Difference in Electron Concentration: 8000 1 per Cubic Meter --> 8000 1 per Cubic Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

Φ_n = (L_e/(2*t))*ΔN --> (2.547E-05/(2*5.75))*8000

Evaluating ... ...

Φ_n = 0.0177182608695652

STEP 3: Convert Result to Output's Unit

0.0177182608695652 Tesla -->0.0177182608695652 Weber per Square Meter (Check conversion here)

FINAL ANSWER

0.0177182608695652 ≈ 0.017718 Weber per Square Meter <-- Electron Flux Density

(Calculation completed in 00.004 seconds)

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< Electrons and Holes Calculators

Hole Component

LaTeX Go Hole Component = Electron Component*Emitter Injection Efficiency/(1-Emitter Injection Efficiency)

Electron Component

LaTeX Go Electron Component = ((Hole Component)/Emitter Injection Efficiency)-Hole Component

Electron Out of Region

LaTeX Go Number of Electron Out of Region = Electron Multiplication*Number of Electron in Region

Electron in Region

LaTeX Go Number of Electron in Region = Number of Electron Out of Region/Electron Multiplication

< Semiconductor Carriers Calculators

Fermi Function

LaTeX Go Fermi Function = Electron Concentration in Conduction Band/Effective Density of State in Conduction Band

Distribution Coefficient

LaTeX Go Distribution Coefficient = Impurity Concentration in Solid/Impurity Concentration in Liquid

Photoelectron Energy

LaTeX Go Photoelectron Energy = [hP]*Frequency of Incident Light

Conduction Band Energy

LaTeX Go Conduction Band Energy = Energy Gap+Valence Band Energy

Electron Flux Density Formula

LaTeX Go

Electron Flux Density = (Mean Free Path Electron/(2*Time))*Difference in Electron Concentration
Φ_n = (L_e/(2*t))*ΔN

What is electron density?

Electron density or electronic density is the measure of the probability of an electron being present at an infinitesimal element of space surrounding any given point.

How to Calculate Electron Flux Density?

Electron Flux Density calculator uses Electron Flux Density = (Mean Free Path Electron/(2*Time))*Difference in Electron Concentration to calculate the Electron Flux Density, The Electron Flux Density formula is defined as measure of the strength of an electric field generated by a free electric charge, corresponding to the number of electric lines of force passing through a given area. Electron Flux Density is denoted by Φ_n symbol.

How to calculate Electron Flux Density using this online calculator? To use this online calculator for Electron Flux Density, enter Mean Free Path Electron (L_e), Time (t) & Difference in Electron Concentration (ΔN) and hit the calculate button. Here is how the Electron Flux Density calculation can be explained with given input values -> 0.017718 = (2.547E-05/(2*5.75))*8000.

FAQ

What is Electron Flux Density?

The Electron Flux Density formula is defined as measure of the strength of an electric field generated by a free electric charge, corresponding to the number of electric lines of force passing through a given area and is represented as Φ_n = (L_e/(2*t))*ΔN or Electron Flux Density = (Mean Free Path Electron/(2*Time))*Difference in Electron Concentration. Mean Free Path electron is defined as an average distance travelled by a moving electrons between successive impacts, which modifies its direction or energy or other particle properties, Time can be defined as the ongoing and continuous sequence of events that occur in succession, from the past through the present to the future & Difference in Electron Concentration is defined as the difference between the electron density of two electron.

How to calculate Electron Flux Density?

The Electron Flux Density formula is defined as measure of the strength of an electric field generated by a free electric charge, corresponding to the number of electric lines of force passing through a given area is calculated using Electron Flux Density = (Mean Free Path Electron/(2*Time))*Difference in Electron Concentration. To calculate Electron Flux Density, you need Mean Free Path Electron (L_e), Time (t) & Difference in Electron Concentration (ΔN). With our tool, you need to enter the respective value for Mean Free Path Electron, Time & Difference in Electron Concentration and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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