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pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature Formula

GopH given Activity of Hydrogen Ion Formula

GopH given Concentration of Hydrogen Ion Formula

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The Negative Log of Hydronium Concentration gives us the value of hydronium ion concentration on the pH scale. Check FAQs

pH = - \log 10 (\frac{N 1 \cdot V 1 - N 2 \cdot V 2}{V 1 + V 2})

pH - Negative Log of Hydronium Concentration?N₁ - Normality of Solution 1?V₁ - Volume of Solution 1?N₂ - Normality of Solution 2?V₂ - Volume of Solution 2?

pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature Example

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Here is how the pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature equation looks like with Values.

Here is how the pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature equation looks like with Units.

Here is how the pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature equation looks like.

3.368 = - \log 10 (\frac{0.0008 \cdot 0.0002 - 0.0005 \cdot 0.0001}{0.0002 + 0.0001})

3.368 = - \log 10 (\frac{0.0008Eq/L \cdot 0.0002L - 0.0005Eq/L \cdot 0.0001L}{0.0002L + 0.0001L})

3.368 = - \log 10 (\frac{0.0008 \cdot 0.0002 - 0.0005 \cdot 0.0001}{0.0002 + 0.0001})

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pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature Solution

Follow our step by step solution on how to calculate pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature?

FIRST Step Consider the formula

pH = - \log 10 (\frac{N 1 \cdot V 1 - N 2 \cdot V 2}{V 1 + V 2})

Next Step Substitute values of Variables

∴

pH = - \log 10 (\frac{0.0008Eq/L \cdot 0.0002L - 0.0005Eq/L \cdot 0.0001L}{0.0002L + 0.0001L})

Next Step Prepare to Evaluate

∴

pH = - \log 10 (\frac{0.0008 \cdot 0.0002 - 0.0005 \cdot 0.0001}{0.0002 + 0.0001})

Next Step Evaluate

∴

pH = 3.36797678529459

LAST Step Rounding Answer

∴

pH = 3.368

pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature Formula Elements

Variables

Functions

Negative Log of Hydronium Concentration

The Negative Log of Hydronium Concentration gives us the value of hydronium ion concentration on the pH scale.

Symbol: pH

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Negative Log of Hydronium Concentration

Normality of Solution 1

The Normality of Solution 1 is described as the number of gram or mole equivalents of solution 1 present in one liter of solution 1.

Symbol: N₁

Measurement: Molar ConcentrationUnit: Eq/L

Note: Value should be greater than 0.

Formulas to find Normality of Solution 1

Volume of Solution 1

The Volume of Solution 1 gives the volume of solution 1 in liters.

Symbol: V₁

Measurement: VolumeUnit: L

Note: Value should be greater than 0.

Formulas to find Volume of Solution 1

Normality of Solution 2

The Normality of Solution 2 is described as the number of gram or mole equivalents of solution 2 present in one liter of solution 2.

Symbol: N₂

Measurement: Molar ConcentrationUnit: Eq/L

Note: Value should be greater than 0.

Formulas to find Normality of Solution 2

Volume of Solution 2

The Volume of Solution 2 gives the volume of the solution 2 in liters.

Symbol: V₂

Measurement: VolumeUnit: L

Note: Value should be greater than 0.

Formulas to find Volume of Solution 2

log10

The common logarithm, also known as the base-10 logarithm or the decimal logarithm, is a mathematical function that is the inverse of the exponential function.

Syntax: log10(Number)

Other Formulas to find Negative Log of Hydronium Concentration

Go pH given Activity of Hydrogen Ion

pH = - \log 10 (aH +)

Go pH given Concentration of Hydrogen Ion

pH = - \log 10 (H +)

Go pH of Mixture of Two Strong Acids

pH = - \log 10 (\frac{N 1 \cdot V 1 + N 2 \cdot V 2}{V 1 + V 2})

Other formulas in Acidity and pH Scale category

Go Activity of Hydrogen Ion given pH

aH + = 10^{- pH}

Go Concentration of Hydrogen Ion given pH

H + = 10^{- pH}

Go pOH given Concentration of Hydroxyl Ion

pOH = - \log 10 (OH -)

Go Concentration of Hydroxyl Ion given pOH

OH - = 10^{- pOH}

How to Evaluate pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature?

pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature evaluator uses Negative Log of Hydronium Concentration = -log10((Normality of Solution 1*Volume of Solution 1-Normality of Solution 2*Volume of Solution 2)/(Volume of Solution 1+Volume of Solution 2)) to evaluate the Negative Log of Hydronium Concentration, pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature formula is defined as negative base-10 logarithm of concentration of hydrogen ion of solution which is calculated using normality and volume of strong acid and strong base denoted as 1 and 2 respectively, where N1V1 is greater than N2V2 which means solution 1 is more acidic than solution 2. Negative Log of Hydronium Concentration is denoted by pH symbol.

How to evaluate pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature using this online evaluator? To use this online evaluator for pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature, enter Normality of Solution 1 (N₁), Volume of Solution 1 (V₁), Normality of Solution 2 (N₂) & Volume of Solution 2 (V₂) and hit the calculate button.

FAQs on pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature

What is the formula to find pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature?

The formula of pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature is expressed as Negative Log of Hydronium Concentration = -log10((Normality of Solution 1*Volume of Solution 1-Normality of Solution 2*Volume of Solution 2)/(Volume of Solution 1+Volume of Solution 2)). Here is an example- 3.124939 = -log10((0.8*2.5E-07-0.5*1E-07)/(2.5E-07+1E-07)).

How to calculate pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature?

With Normality of Solution 1 (N₁), Volume of Solution 1 (V₁), Normality of Solution 2 (N₂) & Volume of Solution 2 (V₂) we can find pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature using the formula - Negative Log of Hydronium Concentration = -log10((Normality of Solution 1*Volume of Solution 1-Normality of Solution 2*Volume of Solution 2)/(Volume of Solution 1+Volume of Solution 2)). This formula also uses Common Logarithm (log10) function(s).

What are the other ways to Calculate Negative Log of Hydronium Concentration?

Here are the different ways to Calculate Negative Log of Hydronium Concentration-

Negative Log of Hydronium Concentration=-log10(Activity of Hydrogen Ion)
Negative Log of Hydronium Concentration=-log10(Concentration of Hydrogen Ion)
Negative Log of Hydronium Concentration=-log10((Normality of Solution 1*Volume of Solution 1+Normality of Solution 2*Volume of Solution 2)/(Volume of Solution 1+Volume of Solution 2))

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: Unit

pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature Formula

​GopH given Activity of Hydrogen Ion Formula

​GopH given Concentration of Hydrogen Ion Formula

pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature Example

pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature Solution

pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature Formula Elements

Other Formulas to find Negative Log of Hydronium Concentration

Other formulas in Acidity and pH Scale category

How to Evaluate pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature?

FAQs on pH of Mixture of Strong Acid and Strong Base when Solution is Acidic in Nature

Variable Name

GopH given Activity of Hydrogen Ion Formula

GopH given Concentration of Hydrogen Ion Formula