Easter Value Solution

STEP 0: Pre-Calculation Summary
Formula Used
Easter Value = Saponification Value-Acid Value
EV = SV-AV
This formula uses 3 Variables
Variables Used
Easter Value - (Measured in Kilogram) - The Easter value is the difference between two variable one is saponification value and acid value.
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.
Acid Value - (Measured in Kilogram) - The acid value is a measure of the amount of acidic substances, particularly free fatty acids, present in a fat or oil sample.
STEP 1: Convert Input(s) to Base Unit
Saponification Value: 500 Gram --> 0.5 Kilogram (Check conversion ​here)
Acid Value: 345 Gram --> 0.345 Kilogram (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
EV = SV-AV --> 0.5-0.345
Evaluating ... ...
EV = 0.155
STEP 3: Convert Result to Output's Unit
0.155 Kilogram -->155 Gram (Check conversion ​here)
FINAL ANSWER
155 Gram <-- Easter Value
(Calculation completed in 00.021 seconds)

Credits

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Created by swapnalijadhav
idealinstituteofpharmacy (iip), Maharashtra
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National University of Judicial Science (NUJS), Kolkata
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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

Easter Value Formula

Easter Value = Saponification Value-Acid Value
EV = SV-AV

Explain Easter value with an example?

The Ester Value shows the amount alkali consumed in the saponification of the esters and is possible identify and differentiate the waxes with this value; for example beeswax ester value is 72 to 79 mg KOH/ g, candelilla wax ester value is 31 to 43 mg KOH/g and carnauba wax ester value is 74 to 78 mg KOH/g.

How to Calculate Easter Value?

Easter Value calculator uses Easter Value = Saponification Value-Acid Value to calculate the Easter Value, The Easter value formula is defined as the difference between saponification value and acid value. Saponification is the hydrolysis of fats or oils (triglyceride ester) in the presence of strong alkali as (NaOH) to produce glycerol and sodium salt of the fatty acid (soap). Easter Value is denoted by EV symbol.

How to calculate Easter Value using this online calculator? To use this online calculator for Easter Value, enter Saponification Value (SV) & Acid Value (AV) and hit the calculate button. Here is how the Easter Value calculation can be explained with given input values -> -500000 = 0.5-0.345.

FAQ

What is Easter Value?
The Easter value formula is defined as the difference between saponification value and acid value. Saponification is the hydrolysis of fats or oils (triglyceride ester) in the presence of strong alkali as (NaOH) to produce glycerol and sodium salt of the fatty acid (soap) and is represented as EV = SV-AV or Easter Value = Saponification Value-Acid Value. The saponification value is the amount of potassium hydroxide (KOH) required to saponify a certain quantity of fat or oil & The acid value is a measure of the amount of acidic substances, particularly free fatty acids, present in a fat or oil sample.
How to calculate Easter Value?
The Easter value formula is defined as the difference between saponification value and acid value. Saponification is the hydrolysis of fats or oils (triglyceride ester) in the presence of strong alkali as (NaOH) to produce glycerol and sodium salt of the fatty acid (soap) is calculated using Easter Value = Saponification Value-Acid Value. To calculate Easter Value, you need Saponification Value (SV) & Acid Value (AV). With our tool, you need to enter the respective value for Saponification Value & Acid Value 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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