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Volume of Culture Plate of Bacteria Solution

STEP 0: Pre-Calculation Summary
Formula Used
volume_of_culture_plate = (No. of Colonies*Dilution Factor)/Colony Forming Unit per ml
vc = (nc*DF)/CFU
This formula uses 3 Variables
Variables Used
No. of Colonies- No. of Colonies is a group of bacteria, fungi, and other microorganisms grown on a solid agar medium.
Dilution Factor- Dilution Factor is the factor by which the stock solution is diluted.
Colony Forming Unit per ml - Colony Forming Unit per ml is a measure of viable bacterial or fungal cells. In direct microscopic counts (cell counting using haemocytometer) where all cells, dead and living, are counted. (Measured in Cells per Liter)
STEP 1: Convert Input(s) to Base Unit
No. of Colonies: 10 --> No Conversion Required
Dilution Factor: 10 --> No Conversion Required
Colony Forming Unit per ml: 10 Cells per Liter --> 10 Cells per Liter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
vc = (nc*DF)/CFU --> (10*10)/10
Evaluating ... ...
vc = 10
STEP 3: Convert Result to Output's Unit
10 Cubic Meter --> No Conversion Required
10 Cubic Meter <-- Volume of Culture Plate
(Calculation completed in 00.000 seconds)

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Growth rate constant of bacteria
growth_rate_constant = log2(No. of bacteria at Time t/Initial No. of Bacteria)/Time Go
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temperature_coefficient_of_resistance = (Resistance of RTD at 100-Resistance of RTD at 0)/(Resistance of RTD at 0*100) Go
Hardy-Weinberg Equilibrium Equation for Predicted Frequency of Heterozygous (Aa) Type
predicted_frequency_of_heterozygous_people = 1-(Predicted Frequency of Homozygous Dominant^2)-(Predicted Frequency of Homozygous Recessive^2) Go
Volume of Culture Plate of Bacteria
volume_of_culture_plate = (No. of Colonies*Dilution Factor)/Colony Forming Unit per ml Go
Colony Forming Unit of Bacteria
colony_forming_unit_per_ml = (No. of Colonies*Dilution Factor)/Volume of Culture Plate Go
Wall tension of the Vessel using Young-Laplace Equation
hoop_stress = (Blood Pressure*Inner Radius of Cylinder)/Wall thickness Go
No. of Generation using Generation Time for bacteria
no_of_generation = Time/Generation Time Go
Approximate Water Potential of Cell
Water_Potential = Solute Potential+Pressure Potential Go
Growth Rate of Bacteria
generation_time = Time/No. of generation Go

Volume of Culture Plate of Bacteria Formula

volume_of_culture_plate = (No. of Colonies*Dilution Factor)/Colony Forming Unit per ml
vc = (nc*DF)/CFU

What is CFU ?

A colony forming unit, or CFU, is a unit commonly used to estimate the concentration of microorganisms in a test sample. The number of visible colonies (CFU) present on an agar plate can be multiplied by the dilution factor to provide a CFU/ml result.

How to Calculate Volume of Culture Plate of Bacteria?

Volume of Culture Plate of Bacteria calculator uses volume_of_culture_plate = (No. of Colonies*Dilution Factor)/Colony Forming Unit per ml to calculate the Volume of Culture Plate, The Volume of Culture Plate of Bacteria formula is defined as the relation of colonies and dilution factor to find out the no. of bacteria in a culture with a medium. Volume of Culture Plate is denoted by vc symbol.

How to calculate Volume of Culture Plate of Bacteria using this online calculator? To use this online calculator for Volume of Culture Plate of Bacteria, enter No. of Colonies (nc), Dilution Factor (DF) & Colony Forming Unit per ml (CFU) and hit the calculate button. Here is how the Volume of Culture Plate of Bacteria calculation can be explained with given input values -> 10 = (10*10)/10.

FAQ

What is Volume of Culture Plate of Bacteria?
The Volume of Culture Plate of Bacteria formula is defined as the relation of colonies and dilution factor to find out the no. of bacteria in a culture with a medium and is represented as vc = (nc*DF)/CFU or volume_of_culture_plate = (No. of Colonies*Dilution Factor)/Colony Forming Unit per ml. No. of Colonies is a group of bacteria, fungi, and other microorganisms grown on a solid agar medium, Dilution Factor is the factor by which the stock solution is diluted & Colony Forming Unit per ml is a measure of viable bacterial or fungal cells. In direct microscopic counts (cell counting using haemocytometer) where all cells, dead and living, are counted.
How to calculate Volume of Culture Plate of Bacteria?
The Volume of Culture Plate of Bacteria formula is defined as the relation of colonies and dilution factor to find out the no. of bacteria in a culture with a medium is calculated using volume_of_culture_plate = (No. of Colonies*Dilution Factor)/Colony Forming Unit per ml. To calculate Volume of Culture Plate of Bacteria, you need No. of Colonies (nc), Dilution Factor (DF) & Colony Forming Unit per ml (CFU). With our tool, you need to enter the respective value for No. of Colonies, Dilution Factor & Colony Forming Unit per ml and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Volume of Culture Plate?
In this formula, Volume of Culture Plate uses No. of Colonies, Dilution Factor & Colony Forming Unit per ml. We can use 10 other way(s) to calculate the same, which is/are as follows -
• generation_time = Time/No. of generation
• no_of_generation = Time/Generation Time
• growth_rate_constant = log2(No. of bacteria at Time t/Initial No. of Bacteria)/Time
• hoop_stress = (Blood Pressure*Inner Radius of Cylinder)/Wall thickness
• colony_forming_unit_per_ml = (No. of Colonies*Dilution Factor)/Volume of Culture Plate
• temperature_coefficient_of_resistance = (Resistance of RTD at 100-Resistance of RTD at 0)/(Resistance of RTD at 0*100)
• Rotation_angle_per_residue = acos((1-(4*cos(((Dihedral angles around negative 65°+Dihedral angles around negative 45°)/2)^2)))/3)
• predicted_frequency_of_heterozygous_people = 1-(Predicted Frequency of Homozygous Dominant^2)-(Predicted Frequency of Homozygous Recessive^2)
• Water_Potential = Solute Potential+Pressure Potential
• volume_of_culture_plate = (No. of Colonies*Dilution Factor)/Colony Forming Unit per ml Let Others Know