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Electric Field given Polarizability Calculator

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The Molecular Dipole Moment is defined as the polarizability of the molecule in a constant electric field. The molecular dipole moment is a vector quantity having magnitude as well as direction.Molecular Dipole Moment [μ]
+10%
-10%
Polarizability is the measure of how easily an electron cloud is distorted by an electric field.Polarizability [α]
+10%
-10%
Electric Field is defined as the electric force per unit charge.Electric Field given Polarizability [E]
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Formula

Electric Field given Polarizability

Formula
`"E" = "μ"/"α"`

Example
`"599.7001V/m"="400C*m"/"0.667C*m²/V"`

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Electric Field given Polarizability Solution

STEP 0: Pre-Calculation Summary
Formula Used
Electric Field = Molecular Dipole Moment/Polarizability
E = μ/α
This formula uses 3 Variables
Variables Used
Electric Field - (Measured in Volt per Meter) - Electric Field is defined as the electric force per unit charge.
Molecular Dipole Moment - (Measured in Coulomb Meter) - The Molecular Dipole Moment is defined as the polarizability of the molecule in a constant electric field. The molecular dipole moment is a vector quantity having magnitude as well as direction.
Polarizability - (Measured in Coulomb Square Meter per Volt) - Polarizability is the measure of how easily an electron cloud is distorted by an electric field.
STEP 1: Convert Input(s) to Base Unit
Molecular Dipole Moment: 400 Coulomb Meter --> 400 Coulomb Meter No Conversion Required
Polarizability: 0.667 Coulomb Square Meter per Volt --> 0.667 Coulomb Square Meter per Volt No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
E = μ/α --> 400/0.667
Evaluating ... ...
E = 599.700149925037
STEP 3: Convert Result to Output's Unit
599.700149925037 Volt per Meter --> No Conversion Required
FINAL ANSWER
599.700149925037 599.7001 Volt per Meter <-- Electric Field
(Calculation completed in 00.006 seconds)
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Home » Chemistry » Analytical chemistry » Molecular Spectroscopy » Raman Spectroscopy » Electric Field given Polarizability

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Created by Prashant Singh
K J Somaiya College of science (K J Somaiya), Mumbai
Prashant Singh has created this Calculator and 700+ more calculators!
Verified by Akshada Kulkarni
National Institute of Information Technology (NIIT), Neemrana
Akshada Kulkarni has verified this Calculator and 900+ more calculators!

13 Raman Spectroscopy Calculators

Frequency Associated to Transition
Go Transition Frequency (1 to 2) = (Energy Level 2-Energy Level 1)/[hP]
Depolarization Ratio
Go Depolarization Ratio = (Intensity of Perpendicular Component/Intensity of Parallel Component)
Energy 1 of Vibrational Level
Go Energy Level 1 = Energy Level 2-(Transition Frequency*[hP])
Energy 2 of Vibrational Level
Go Energy Level 2 = Energy Level 1+(Transition Frequency*[hP])
Vibrational Frequency given Anti Stokes Frequency
Go Vibrational Frequency in Anti Stokes = Anti Stokes Frequency-Incident Frequency
Vibrational Frequency given Stokes Frequency
Go Vibrational Frequency = Incident Frequency-Stokes Scattering Frequency
Incident Frequency given Stokes Frequency
Go Incident Frequency = Stokes Scattering Frequency+Vibrational Frequency
Stokes Scattering Frequency
Go Stokes Scattering Frequency = Initial Frequency-Vibrational Frequency
Incident Frequency given Anti Stokes Frequency
Go Incident Frequency = Anti Stokes Frequency-Vibrational Frequency
Anti Stokes Scattering Frequency
Go Anti Stokes Frequency = Initial Frequency+Vibrational Frequency
Electric Field given Polarizability
Go Electric Field = Molecular Dipole Moment/Polarizability
Molecular Dipole Moment
Go Molecular Dipole Moment = Polarizability*Electric Field
Polarizability
Go Polarizability = Molecular Dipole Moment/Electric Field

12 Raman spectroscopy Calculators

Frequency Associated to Transition
Go Transition Frequency (1 to 2) = (Energy Level 2-Energy Level 1)/[hP]
Energy 1 of Vibrational Level
Go Energy Level 1 = Energy Level 2-(Transition Frequency*[hP])
Energy 2 of Vibrational Level
Go Energy Level 2 = Energy Level 1+(Transition Frequency*[hP])
Vibrational Frequency given Anti Stokes Frequency
Go Vibrational Frequency in Anti Stokes = Anti Stokes Frequency-Incident Frequency
Vibrational Frequency given Stokes Frequency
Go Vibrational Frequency = Incident Frequency-Stokes Scattering Frequency
Incident Frequency given Stokes Frequency
Go Incident Frequency = Stokes Scattering Frequency+Vibrational Frequency
Stokes Scattering Frequency
Go Stokes Scattering Frequency = Initial Frequency-Vibrational Frequency
Incident Frequency given Anti Stokes Frequency
Go Incident Frequency = Anti Stokes Frequency-Vibrational Frequency
Anti Stokes Scattering Frequency
Go Anti Stokes Frequency = Initial Frequency+Vibrational Frequency
Electric Field given Polarizability
Go Electric Field = Molecular Dipole Moment/Polarizability
Molecular Dipole Moment
Go Molecular Dipole Moment = Polarizability*Electric Field
Polarizability
Go Polarizability = Molecular Dipole Moment/Electric Field

Electric Field given Polarizability Formula

Electric Field = Molecular Dipole Moment/Polarizability
E = μ/α

What is polarizability?

Typically the electron cloud will belong to an atom or molecule or ion. The electric field could be caused, for example, by an electrode or a nearby cation or anion. If an electron cloud is easy to distort, we say that the species it belongs to is polarizable.

How to Calculate Electric Field given Polarizability?

Electric Field given Polarizability calculator uses Electric Field = Molecular Dipole Moment/Polarizability to calculate the Electric Field, The Electric Field given Polarizability is defined as the molecular dipole moment to the polarizability of the atom. Electric Field is denoted by E symbol.

How to calculate Electric Field given Polarizability using this online calculator? To use this online calculator for Electric Field given Polarizability, enter Molecular Dipole Moment (μ) & Polarizability (α) and hit the calculate button. Here is how the Electric Field given Polarizability calculation can be explained with given input values -> 599.7001 = 400/0.667.

FAQ

What is Electric Field given Polarizability?
The Electric Field given Polarizability is defined as the molecular dipole moment to the polarizability of the atom and is represented as E = μ/α or Electric Field = Molecular Dipole Moment/Polarizability. The Molecular Dipole Moment is defined as the polarizability of the molecule in a constant electric field. The molecular dipole moment is a vector quantity having magnitude as well as direction & Polarizability is the measure of how easily an electron cloud is distorted by an electric field.
How to calculate Electric Field given Polarizability?
The Electric Field given Polarizability is defined as the molecular dipole moment to the polarizability of the atom is calculated using Electric Field = Molecular Dipole Moment/Polarizability. To calculate Electric Field given Polarizability, you need Molecular Dipole Moment (μ) & Polarizability (α). With our tool, you need to enter the respective value for Molecular Dipole Moment & Polarizability 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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