## Scheibe-Lomakin Equation Solution

STEP 0: Pre-Calculation Summary
Formula Used
Intensity of Spectral Line = Proportionality Constant of Schiebe Lomakin*(Concentration of Element for Scheibe Lomakin^Proportionality Deviation of Schiebe Lomakin)
I = k*(G^m)
This formula uses 4 Variables
Variables Used
Intensity of Spectral Line - (Measured in Candela) - Intensity of Spectral Line is intensity in a weaker or stronger region in an otherwise uniform and continuous spectrum.
Proportionality Constant of Schiebe Lomakin - Proportionality Constant of Schiebe Lomakin Equation is a default value which depends on the nature of the medium and wavelength of light used.
Concentration of Element for Scheibe Lomakin - (Measured in Mole per Cubic Meter) - Concentration of Element for Scheibe Lomakin is the abundance of a constituent divided by the total volume of a mixture.
Proportionality Deviation of Schiebe Lomakin - Proportionality Deviation of Schiebe Lomakin is an exponent primarily that takes into account deviations caused by self-absorption.
STEP 1: Convert Input(s) to Base Unit
Proportionality Constant of Schiebe Lomakin: 2 --> No Conversion Required
Concentration of Element for Scheibe Lomakin: 0.04 Molar(M) --> 40 Mole per Cubic Meter (Check conversion ​here)
Proportionality Deviation of Schiebe Lomakin: 0.5 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
I = k*(G^m) --> 2*(40^0.5)
Evaluating ... ...
I = 12.6491106406735
STEP 3: Convert Result to Output's Unit
12.6491106406735 Candela --> No Conversion Required
12.6491106406735 12.64911 Candela <-- Intensity of Spectral Line
(Calculation completed in 00.004 seconds)
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## <Spectrochemistry Calculators

Kaiser Transform
​ Go Kaiser Transform = (Constant for Kaiser Transform*log10(1/Transmittance for Kaiser Transform))+((1-Constant for Kaiser Transform)*log10(1/(Transmittance for Kaiser Transform-1)))
Scheibe-Lomakin Equation
​ Go Intensity of Spectral Line = Proportionality Constant of Schiebe Lomakin*(Concentration of Element for Scheibe Lomakin^Proportionality Deviation of Schiebe Lomakin)
Relative Exposure
​ Go Relative Exposure = 10^((Slope for Relative Exposure*Kaiser Transform)+Intercept for Relative Exposure)
Partial Pressure in Column Arc
​ Go Partial Pressure in Arc Column = 1.3625*(10^22)*Temperature in Arc Column*Electron Density in Arc Column

## Scheibe-Lomakin Equation Formula

Intensity of Spectral Line = Proportionality Constant of Schiebe Lomakin*(Concentration of Element for Scheibe Lomakin^Proportionality Deviation of Schiebe Lomakin)
I = k*(G^m)

## What is Scheibe-Lomakin Equation based on?

The equation is based on the assumption that, in principle, intensity is proportional to concentration; deviations from this proportionality, primarily that caused by self-absorption, are taken into account by the exponent m.

## How to Calculate Scheibe-Lomakin Equation?

Scheibe-Lomakin Equation calculator uses Intensity of Spectral Line = Proportionality Constant of Schiebe Lomakin*(Concentration of Element for Scheibe Lomakin^Proportionality Deviation of Schiebe Lomakin) to calculate the Intensity of Spectral Line, The Scheibe-Lomakin Equation formula is defined as basis of quantitative spectrochemical analysis, which is a simple, empirical relationship between the content G of an element in the sample and the intensity I of a spectral line in the source of excitation. Intensity of Spectral Line is denoted by I symbol.

How to calculate Scheibe-Lomakin Equation using this online calculator? To use this online calculator for Scheibe-Lomakin Equation, enter Proportionality Constant of Schiebe Lomakin (k), Concentration of Element for Scheibe Lomakin (G) & Proportionality Deviation of Schiebe Lomakin (m) and hit the calculate button. Here is how the Scheibe-Lomakin Equation calculation can be explained with given input values -> 12.64911 = 2*(40^0.5).

### FAQ

What is Scheibe-Lomakin Equation?
The Scheibe-Lomakin Equation formula is defined as basis of quantitative spectrochemical analysis, which is a simple, empirical relationship between the content G of an element in the sample and the intensity I of a spectral line in the source of excitation and is represented as I = k*(G^m) or Intensity of Spectral Line = Proportionality Constant of Schiebe Lomakin*(Concentration of Element for Scheibe Lomakin^Proportionality Deviation of Schiebe Lomakin). Proportionality Constant of Schiebe Lomakin Equation is a default value which depends on the nature of the medium and wavelength of light used, Concentration of Element for Scheibe Lomakin is the abundance of a constituent divided by the total volume of a mixture & Proportionality Deviation of Schiebe Lomakin is an exponent primarily that takes into account deviations caused by self-absorption.
How to calculate Scheibe-Lomakin Equation?
The Scheibe-Lomakin Equation formula is defined as basis of quantitative spectrochemical analysis, which is a simple, empirical relationship between the content G of an element in the sample and the intensity I of a spectral line in the source of excitation is calculated using Intensity of Spectral Line = Proportionality Constant of Schiebe Lomakin*(Concentration of Element for Scheibe Lomakin^Proportionality Deviation of Schiebe Lomakin). To calculate Scheibe-Lomakin Equation, you need Proportionality Constant of Schiebe Lomakin (k), Concentration of Element for Scheibe Lomakin (G) & Proportionality Deviation of Schiebe Lomakin (m). With our tool, you need to enter the respective value for Proportionality Constant of Schiebe Lomakin, Concentration of Element for Scheibe Lomakin & Proportionality Deviation of Schiebe Lomakin 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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