Incident Field in Nanomaterials and Nanochemistry Formulas

The Incident Field is the subtraction of the polarization factor from the local field in the Lorentz–Lorenz expression. And is denoted by E. Incident Field is usually measured using the Joule for Energy. Note that the value of Incident Field is always positive.

Formulas to find Incident Field in Nanomaterials and Nanochemistry

fxIncident Field using Local Field and PolarizationGo

Nanomaterials and Nanochemistry formulas that make use of Incident Field

fxLocal field using Incident Field and PolarizationGo

fxPolarization Due to Metallic Particle using Dielectric Constants and Incident FieldGo

fxPolarization due to Sphere using Local field and Incident FieldGo

fxTotal Polarization of Composite Material using Dielectric Constants and Incident FieldGo

List of variables in Nanomaterials and Nanochemistry formulas

fx Local Field Go

fx Polarization due to Sphere Go

fx Real Dielectric Constant Go

fx Vacuum Dielectric Constant Go

FAQ

What is the Incident Field?

The Incident Field is the subtraction of the polarization factor from the local field in the Lorentz–Lorenz expression. Incident Field is usually measured using the Joule for Energy. Note that the value of Incident Field is always positive.

Can the Incident Field be negative?

No, the Incident Field, measured in Energy cannot be negative.

What unit is used to measure Incident Field?

Incident Field is usually measured using the Joule[J] for Energy. Kilojoule[J], Gigajoule[J], Megajoule[J] are the few other units in which Incident Field can be measured.

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