Saponification value Calculator

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✖The Molecular weight of KOH is the sum of the atomic weights of all the atoms in the fatty acids or esters in the fat or oil sample.ⓘ Molecular weight of KOH [M_w]			+10% -10%
✖The Volume of blank solution represents the volume of the blank solution of the base (potassium hydroxide, KOH) required for the titration.ⓘ Volume of blank [V_b]			+10% -10%
✖The Volume of Actual solution is the volume of the test solution of the base (KOH) required for the titration.ⓘ Volume of Actual solution [V_a]			+10% -10%
✖The Normality of solution is a concentration unit that indicates the number of equivalent weights of a substance present in one liter of solution.ⓘ Normality of solution [N]			+10% -10%
✖The Weight of sample taken is the weight of the fat or oil sample that is being analyzed. It is measured in grams (g).ⓘ Weight of sample taken [W_s]			+10% -10%

✖The saponification value is the amount of potassium hydroxide (KOH) required to saponify a certain quantity of fat or oil.ⓘ Saponification value [SV]

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Formula

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Saponification value

Formula

`"SV" = "M"_{"w"}*("V"_{"b"}-"V"_{"a"})*"N"/"W"_{"s"}`

Example

`"0.187033g"="56.11g/mol"*("20mL"-"10mL")*"0.5"/"1.5g"`

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Saponification value Solution

STEP 0: Pre-Calculation Summary

Formula Used

Saponification Value = Molecular weight of KOH*(Volume of blank-Volume of Actual solution)*Normality of solution/Weight of sample taken
SV = M_w*(V_b-V_a)*N/W_s
This formula uses 6 Variables

Variables Used

Saponification Value - (Measured in Kilogram) - The saponification value is the amount of potassium hydroxide (KOH) required to saponify a certain quantity of fat or oil.
Molecular weight of KOH - (Measured in Kilogram Per Mole) - The Molecular weight of KOH is the sum of the atomic weights of all the atoms in the fatty acids or esters in the fat or oil sample.
Volume of blank - (Measured in Cubic Meter) - The Volume of blank solution represents the volume of the blank solution of the base (potassium hydroxide, KOH) required for the titration.
Volume of Actual solution - (Measured in Cubic Meter) - The Volume of Actual solution is the volume of the test solution of the base (KOH) required for the titration.
Normality of solution - The Normality of solution is a concentration unit that indicates the number of equivalent weights of a substance present in one liter of solution.
Weight of sample taken - (Measured in Kilogram) - The Weight of sample taken is the weight of the fat or oil sample that is being analyzed. It is measured in grams (g).

STEP 1: Convert Input(s) to Base Unit

Molecular weight of KOH: 56.11 Gram Per Mole --> 0.05611 Kilogram Per Mole (Check conversion here)
Volume of blank: 20 Milliliter --> 2E-05 Cubic Meter (Check conversion here)
Volume of Actual solution: 10 Milliliter --> 1E-05 Cubic Meter (Check conversion here)
Normality of solution: 0.5 --> No Conversion Required
Weight of sample taken: 1.5 Gram --> 0.0015 Kilogram (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

SV = M_w*(V_b-V_a)*N/W_s --> 0.05611*(2E-05-1E-05)*0.5/0.0015

Evaluating ... ...

SV = 0.000187033333333333

STEP 3: Convert Result to Output's Unit

0.000187033333333333 Kilogram -->0.187033333333333 Gram (Check conversion here)

FINAL ANSWER

0.187033333333333 ≈ 0.187033 Gram <-- Saponification Value

(Calculation completed in 00.020 seconds)

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Created by swapnalijadhav

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< 25 Drug Content Calculators

Saponification value

Go Saponification Value = Molecular weight of KOH*(Volume of blank-Volume of Actual solution)*Normality of solution/Weight of sample taken

Fraction of Drug Unbound in Tissue given Apparent Tissue Volume

Go Fraction Unbound in Tissue = (Fraction Unbound in Plasma*Apparent Tissue Volume)/(Volume of Distribution-Plasma Volume)

Secretion Rate of Drug

Go Secretion Rate of Drug = (Renal Clearance*Plasma Concentration)-(Filtration Rate)+(Reabsorption Rate of Drug)

Reabsorption Rate of Drug

Go Reabsorption Rate of Drug = ((Renal Clearance*Plasma Concentration)+Filtration Rate+Secretion Rate of Drug)

Filtration Rate of Drug

Go Filtration Rate = ((Renal Clearance*Plasma Concentration)+Reabsorption Rate of Drug-Secretion Rate of Drug)

Relative Bioavailability of Drug

Go Relative Bioavailability = (Area under curve Dosage A/Area under curve Dosage B)*(Dose Type B/Dose Type A)

Acid Value of KOH

Go Acid Value = Molecular weight of KOH*Volume of solution koh*Normality of solution/Weight of sample taken

Drug Purity given Rate of Administration and Dosing Interval

Go Drug Purity = (Drug Rate*Dosing Interval)/(Administered Dose*Bioavailability)

Rate of Administration of Drug given Dosing Interval

Go Drug Rate = (Administered Dose*Bioavailability*Drug Purity)/Dosing Interval

Drug Purity given Administrative Dose and Effective Dose

Go Drug Purity = Effective Dose/(Administered Dose*Bioavailability)

Drug Loading Efficiency

Go Drug Loading Efficiency = Weight of drug in nanoparticles/Weight of the Nanoparticles*100

Encapsulation Efficiency

Go Encapsulation Efficiency = Weight of drug in nanoparticles/Weight of feeding drug*100

Renal Clearance of Drug

Go Renal Clearance = Drug Amount Excreted Unchanged in Urine/Area Under Curve

Concentration of Drug given Rate of Infusion of Drug

Go Concentration of Drug = Rate of Infusion/Volume of Plasma Cleared

Rate of Infusion of Drug

Go Rate of Infusion = Volume of Plasma Cleared*Concentration of Drug

Median Lethal Dose using Therapeutic Index

Go Median Lethal Dose = (Median Effective Dose*Therapeutic Index)

Margin of Safety of Drugs

Go Margin of Safety = Toxic Dose Response/Effective Dose Response

Effective Dose using Therapeutic Index

Go Median Effective Dose = Median Lethal Dose/Therapeutic Index

Therapeutic Index

Go Therapeutic Index = Median Lethal Dose/Median Effective Dose

Absorption Half-Life of Drug

Go Absorption Half Life = ln(2)/Absorption Rate Constant

Drug Rate Entering Body

Go Absorption Rate Constant = ln(2)/Absorption Half Life

Concentration of Drug using Volume of Distribution

Go Concentration of Drug = Dose/Volume of Distribution

Apparent Volume of Drug Distribution

Go Volume of Distribution = Dose/Concentration of Drug

Tablet Dosage

Go Number of tablet = Desired dosage/Stock strength

Easter Value

Go Easter Value = Saponification Value-Acid Value

Saponification value Formula

Saponification Value = Molecular weight of KOH*(Volume of blank-Volume of Actual solution)*Normality of solution/Weight of sample taken
SV = M_w*(V_b-V_a)*N/W_s

What is saponification value?

The saponification value, also known as the saponification number or saponification index, is a measure used to determine the average molecular weight of fatty acids in a chemical compound or mixture, typically fats and oils. It's an important parameter in industries related to oils, fats, and soaps.

How to Calculate Saponification value?

Saponification value calculator uses Saponification Value = Molecular weight of KOH*(Volume of blank-Volume of Actual solution)*Normality of solution/Weight of sample taken to calculate the Saponification Value, The Saponification value formula measures to determine the average molecular weight of fatty acids in a chemical compound or mixture, typically fats and oils. It's an important parameter in industries related to oils, fats, and soaps. Saponification Value is denoted by SV symbol.

How to calculate Saponification value using this online calculator? To use this online calculator for Saponification value, enter Molecular weight of KOH (M_w), Volume of blank (V_b), Volume of Actual solution (V_a), Normality of solution (N) & Weight of sample taken (W_s) and hit the calculate button. Here is how the Saponification value calculation can be explained with given input values -> 187.0333 = 0.05611*(2E-05-1E-05)*0.5/0.0015.

FAQ

What is Saponification value?

The Saponification value formula measures to determine the average molecular weight of fatty acids in a chemical compound or mixture, typically fats and oils. It's an important parameter in industries related to oils, fats, and soaps and is represented as SV = M_w*(V_b-V_a)*N/W_s or Saponification Value = Molecular weight of KOH*(Volume of blank-Volume of Actual solution)*Normality of solution/Weight of sample taken. The Molecular weight of KOH is the sum of the atomic weights of all the atoms in the fatty acids or esters in the fat or oil sample, The Volume of blank solution represents the volume of the blank solution of the base (potassium hydroxide, KOH) required for the titration, The Volume of Actual solution is the volume of the test solution of the base (KOH) required for the titration, The Normality of solution is a concentration unit that indicates the number of equivalent weights of a substance present in one liter of solution & The Weight of sample taken is the weight of the fat or oil sample that is being analyzed. It is measured in grams (g).

How to calculate Saponification value?

The Saponification value formula measures to determine the average molecular weight of fatty acids in a chemical compound or mixture, typically fats and oils. It's an important parameter in industries related to oils, fats, and soaps is calculated using Saponification Value = Molecular weight of KOH*(Volume of blank-Volume of Actual solution)*Normality of solution/Weight of sample taken. To calculate Saponification value, you need Molecular weight of KOH (M_w), Volume of blank (V_b), Volume of Actual solution (V_a), Normality of solution (N) & Weight of sample taken (W_s). With our tool, you need to enter the respective value for Molecular weight of KOH, Volume of blank, Volume of Actual solution, Normality of solution & Weight of sample taken 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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