Mobility given Conductivity Calculator

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Spectrometric Characterization of Polymers

✖Conductivity is the measure of the ease at which an electric charge or heat can pass through a material.ⓘ Conductivity [σ]			+10% -10%
✖The number of Electrons is the total number of negatively charged subatomic particles which is either free or bound to the nucleus of an atom.ⓘ Number of Electrons [e^-]			+10% -10%

✖Mobility of electron is defined as the magnitude of average drift velocity per unit electric field.ⓘ Mobility given Conductivity [μ_e]

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Formula

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Mobility given Conductivity

Formula

`"μ"_{"e"} = "σ"/("e"^{"-"}*"[Charge-e]")`

Example

`"1E^17m²/V*s"="0.1S/m"/("6"*"[Charge-e]")`

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Mobility given Conductivity Solution

STEP 0: Pre-Calculation Summary

Formula Used

Mobility of Electron = Conductivity/(Number of Electrons*[Charge-e])
μ_e = σ/(e^-*[Charge-e])
This formula uses 1 Constants, 3 Variables

Constants Used

[Charge-e] - Charge of electron Value Taken As 1.60217662E-19

Variables Used

Mobility of Electron - (Measured in Square Meter per Volt per Second) - Mobility of electron is defined as the magnitude of average drift velocity per unit electric field.
Conductivity - (Measured in Siemens per Meter) - Conductivity is the measure of the ease at which an electric charge or heat can pass through a material.
Number of Electrons - The number of Electrons is the total number of negatively charged subatomic particles which is either free or bound to the nucleus of an atom.

STEP 1: Convert Input(s) to Base Unit

Conductivity: 0.1 Siemens per Meter --> 0.1 Siemens per Meter No Conversion Required
Number of Electrons: 6 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

μ_e = σ/(e^-*[Charge-e]) --> 0.1/(6*[Charge-e])

Evaluating ... ...

μ_e = 1.04025152149996E+17

STEP 3: Convert Result to Output's Unit

1.04025152149996E+17 Square Meter per Volt per Second --> No Conversion Required

FINAL ANSWER

1.04025152149996E+17 ≈ 1E+17 Square Meter per Volt per Second <-- Mobility of Electron

(Calculation completed in 00.004 seconds)

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Amity Institute Of Applied Sciences (AIAS, Amity University), Noida, India

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< 9 Spectrometric Characterization of Polymers Calculators

Kinetic Energy given Binding Energy

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Binding Energy given Work Function

Go Binding Energy of Photoelectron = ([hP]*Frequency of Light)-Kinetic Energy of Photoelectron-Work Function

Energy of Auger Electron

Go Energy of Auger Electron = Energy of Outer Shell Electron-Energy of Inner Shell Electron+Energy of Second Outer Shell Electron

Change in Temperature given Thermal Conductivity

Go Change in Temperature = (Heat Flow Rate*Thickness of Sample)/(Sample Area*Thermal Conductivity)

Thermal Conductivity given Heat Flow Rate

Go Thermal Conductivity = (Heat Flow Rate*Thickness of Sample)/(Sample Area*Change in Temperature)

Specific Heat Capacity given Thermal Diffusivity

Go Specific Heat Capacity = Thermal Conductivity/(Thermal Diffusivity*Density)

Density given Thermal Diffusivity

Go Density = Thermal Conductivity/(Thermal Diffusivity*Specific Heat Capacity)

Mobility given Conductivity

Go Mobility of Electron = Conductivity/(Number of Electrons*[Charge-e])

Heat of Polymerization

Go Heat of Polymerization = Activation Energy for Propagation-Activation Energy for Depolymerization

Mobility given Conductivity Formula

Mobility of Electron = Conductivity/(Number of Electrons*[Charge-e])
μ_e = σ/(e^-*[Charge-e])

What is the cause of electrical conductivity?

Electrical conductivity in metals is a result of the movement of electrically charged particles. The atoms of metal elements are characterized by the presence of valence electrons, which are electrons in the outer shell of an atom that are free to move about. It is these "free electrons" that allow metals to conduct an electric current. Because valence electrons are free to move, they can travel through the lattice that forms the physical structure of a metal. Under an electric field, free electrons move through the metal much like billiard balls knocking against each other, passing an electric charge as they move.

How to Calculate Mobility given Conductivity?

Mobility given Conductivity calculator uses Mobility of Electron = Conductivity/(Number of Electrons*[Charge-e]) to calculate the Mobility of Electron, The Mobility given Conductivity characterizes how quickly an electron can move through a metal or semiconductor when pulled by an electric field. Mobility of Electron is denoted by μ_e symbol.

How to calculate Mobility given Conductivity using this online calculator? To use this online calculator for Mobility given Conductivity, enter Conductivity (σ) & Number of Electrons (e^-) and hit the calculate button. Here is how the Mobility given Conductivity calculation can be explained with given input values -> 1E+17 = 0.1/(6*[Charge-e]).

FAQ

What is Mobility given Conductivity?

The Mobility given Conductivity characterizes how quickly an electron can move through a metal or semiconductor when pulled by an electric field and is represented as μ_e = σ/(e^-*[Charge-e]) or Mobility of Electron = Conductivity/(Number of Electrons*[Charge-e]). Conductivity is the measure of the ease at which an electric charge or heat can pass through a material & The number of Electrons is the total number of negatively charged subatomic particles which is either free or bound to the nucleus of an atom.

How to calculate Mobility given Conductivity?

The Mobility given Conductivity characterizes how quickly an electron can move through a metal or semiconductor when pulled by an electric field is calculated using Mobility of Electron = Conductivity/(Number of Electrons*[Charge-e]). To calculate Mobility given Conductivity, you need Conductivity (σ) & Number of Electrons (e^-). With our tool, you need to enter the respective value for Conductivity & Number of Electrons 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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