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Number of Theoretical Plates given Length of Column and Standard Deviation Calculator

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โœ–The Length of Column is the height of the chromatographic column in which the separation of particles takes place.โ“˜ Length of Column [L]
+10%
-10%
โœ–The Standard Deviation is a measure of how spread out numbers are.โ“˜ Standard Deviation [ฯƒ]
+10%
-10%
โœ–The Number of Theoretical Plates given L and SD is defined as used to determine column efficiency based on the calculation in which the larger the theoretical plate number the sharper the peaks.โ“˜ Number of Theoretical Plates given Length of Column and Standard Deviation [NLandSD]
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Number of Theoretical Plates given Length of Column and Standard Deviation

Formula
`"N"_{"LandSD"} = (("L")^2)/(("ฯƒ")^2)`

Example
`"0.290326"=(("22m")^2)/(("40.83")^2)`

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Number of Theoretical Plates given Length of Column and Standard Deviation Solution

STEP 0: Pre-Calculation Summary
Formula Used
Number of Theoretical Plates given L and SD = ((Length of Column)^2)/((Standard Deviation)^2)
NLandSD = ((L)^2)/((ฯƒ)^2)
This formula uses 3 Variables
Variables Used
Number of Theoretical Plates given L and SD - The Number of Theoretical Plates given L and SD is defined as used to determine column efficiency based on the calculation in which the larger the theoretical plate number the sharper the peaks.
Length of Column - (Measured in Meter) - The Length of Column is the height of the chromatographic column in which the separation of particles takes place.
Standard Deviation - The Standard Deviation is a measure of how spread out numbers are.
STEP 1: Convert Input(s) to Base Unit
Length of Column: 22 Meter --> 22 Meter No Conversion Required
Standard Deviation: 40.83 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
NLandSD = ((L)^2)/((ฯƒ)^2) --> ((22)^2)/((40.83)^2)
Evaluating ... ...
NLandSD = 0.290326448697487
STEP 3: Convert Result to Output's Unit
0.290326448697487 --> No Conversion Required
FINAL ANSWER
0.290326448697487 โ‰ˆ 0.290326 <-- Number of Theoretical Plates given L and SD
(Calculation completed in 00.006 seconds)
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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!

9 Number of Theoretical Plates Calculators

Separation Factor given Resolution and Number of Theoretical Plates
Go Separation Factor given TP = (((4*Resolution)/sqrt(Number of Theoretical Plates))+1)
Number of Theoretical Plates given Retention Time and Half Width of Peak
Go Number of Theoretical Plates given RT and HP = (5.55*(Retention Time)^2)/((Half of Average Width of Peaks)^2)
Number of Theoretical Plates given Length of Column and Standard Deviation
Go Number of Theoretical Plates given L and SD = ((Length of Column)^2)/((Standard Deviation)^2)
Number of Theoretical Plates given Retention Time and Standard Deviation
Go Number of Theoretical Plates given RT and SD = ((Retention Time)^2)/((Standard Deviation)^2)
Number of Theoretical Plates given Length of Column and Width of Peak
Go Number of Theoretical Plates given L and W = (16*((Length of Column)^2))/((Width of Peak)^2)
Number of Theoretical Plates given Retention Time and Width of Peak
Go Number of Theoretical Plates given RT and WP = (16*((Retention Time)^2))/((Width of Peak)^2)
Number of Theoretical Plates given Resolution and Separation Factor
Go Number of Theoretical Plates given R and SF = ((4*Resolution)^2)/((Separation Factor-1)^2)
Number of Theoretical Plates given Length and Height of Column
Go Number of Theoretical Plates given L and H = (Length of Column/Plate Height)
Height of Column given Number of Theoretical Plates
Go Plate Height given TP = (Length of Column/Number of Theoretical Plates)

15 Number of Theoretical Plates and Capacity Factor Calculators

Capacity Factor given Stationary Phase and Mobile Phase
Go Capacity Factor = (Concentration of Stationary Phase*Volume of Stationary Phase)/(Concentration of Mobile Phase*Volume of Mobile Phase)
Capacity Factor given Retention Volume and Unretained Volume
Go Capacity Factor of the Compound = (Retention Volume-Unretained Mobile Phase Volume)/Unretained Mobile Phase Volume
Capacity Factor given Partition Coefficient and Volume of Mobile and Stationary Phase
Go Capacity Factor given partition Coeff = Partition Coefficient*(Volume of Stationary Phase/Volume of Mobile Phase)
Capacity Factor given Retention Time and Mobile Phase Travel Time
Go Capacity Factor of the Compound = (Retention Time-Unretained Solute Travel Time)/Unretained Solute Travel Time
Separation Factor given Resolution and Number of Theoretical Plates
Go Separation Factor given TP = (((4*Resolution)/sqrt(Number of Theoretical Plates))+1)
Number of Theoretical Plates given Retention Time and Half Width of Peak
Go Number of Theoretical Plates given RT and HP = (5.55*(Retention Time)^2)/((Half of Average Width of Peaks)^2)
Number of Theoretical Plates given Length of Column and Standard Deviation
Go Number of Theoretical Plates given L and SD = ((Length of Column)^2)/((Standard Deviation)^2)
Number of Theoretical Plates given Retention Time and Standard Deviation
Go Number of Theoretical Plates given RT and SD = ((Retention Time)^2)/((Standard Deviation)^2)
Number of Theoretical Plates given Length of Column and Width of Peak
Go Number of Theoretical Plates given L and W = (16*((Length of Column)^2))/((Width of Peak)^2)
Number of Theoretical Plates given Retention Time and Width of Peak
Go Number of Theoretical Plates given RT and WP = (16*((Retention Time)^2))/((Width of Peak)^2)
Number of Theoretical Plates given Resolution and Separation Factor
Go Number of Theoretical Plates given R and SF = ((4*Resolution)^2)/((Separation Factor-1)^2)
Number of Theoretical Plates given Length and Height of Column
Go Number of Theoretical Plates given L and H = (Length of Column/Plate Height)
Capacity Factor of Solute 1 given Relative Retention
Go Capacity Factor of 1 = (Capacity Factor of Solute 2/Relative Retention)
Capacity Factor of Solute 2 given Relative Retention
Go Capacity Factor of 2 = (Relative Retention*Capacity Factor of Solute 1)
Height of Column given Number of Theoretical Plates
Go Plate Height given TP = (Length of Column/Number of Theoretical Plates)

Number of Theoretical Plates given Length of Column and Standard Deviation Formula

Number of Theoretical Plates given L and SD = ((Length of Column)^2)/((Standard Deviation)^2)
NLandSD = ((L)^2)/((ฯƒ)^2)

What is Chromatography?

A separation process based on the various partitioning coefficients of different solutes between the two phases.
Involving the interaction of solute(s) and two phases
Mobile phase: A gas or liquid that moves through the column.
Stationary phase: A solid or liquid that remains in place.

What are the types of Chromatography?

1) Adsorption chromatography
2) Ion-exchange chromatography
3) Partition chromatography
4) Molecular Size exclusion chromatography
5) Affinity chromatography

How to Calculate Number of Theoretical Plates given Length of Column and Standard Deviation?

Number of Theoretical Plates given Length of Column and Standard Deviation calculator uses Number of Theoretical Plates given L and SD = ((Length of Column)^2)/((Standard Deviation)^2) to calculate the Number of Theoretical Plates given L and SD, The Number of theoretical plates given length of column and standard deviation formula is defined as the ratio of the square of the length of column to the standard diffusion of diffusive band spreading. Number of Theoretical Plates given L and SD is denoted by NLandSD symbol.

How to calculate Number of Theoretical Plates given Length of Column and Standard Deviation using this online calculator? To use this online calculator for Number of Theoretical Plates given Length of Column and Standard Deviation, enter Length of Column (L) & Standard Deviation (ฯƒ) and hit the calculate button. Here is how the Number of Theoretical Plates given Length of Column and Standard Deviation calculation can be explained with given input values -> 0.290326 = ((22)^2)/((40.83)^2).

FAQ

What is Number of Theoretical Plates given Length of Column and Standard Deviation?
The Number of theoretical plates given length of column and standard deviation formula is defined as the ratio of the square of the length of column to the standard diffusion of diffusive band spreading and is represented as NLandSD = ((L)^2)/((ฯƒ)^2) or Number of Theoretical Plates given L and SD = ((Length of Column)^2)/((Standard Deviation)^2). The Length of Column is the height of the chromatographic column in which the separation of particles takes place & The Standard Deviation is a measure of how spread out numbers are.
How to calculate Number of Theoretical Plates given Length of Column and Standard Deviation?
The Number of theoretical plates given length of column and standard deviation formula is defined as the ratio of the square of the length of column to the standard diffusion of diffusive band spreading is calculated using Number of Theoretical Plates given L and SD = ((Length of Column)^2)/((Standard Deviation)^2). To calculate Number of Theoretical Plates given Length of Column and Standard Deviation, you need Length of Column (L) & Standard Deviation (ฯƒ). With our tool, you need to enter the respective value for Length of Column & Standard Deviation 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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