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Specific Conductivity given Equivalent Conductivity and Normality of solution Formula

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The Specific Conductance is the ability of a substance to conduct electricity. It is the reciprocal of specific resistance. Check FAQs

K = \frac{Λ eq \cdot N}{1000}

K - Specific Conductance?Λ_eq - Equivalent conductance of ions?N - Normality?

Specific Conductivity given Equivalent Conductivity and Normality of solution Example

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Here is how the Specific Conductivity given Equivalent Conductivity and Normality of solution equation looks like with Values.

Here is how the Specific Conductivity given Equivalent Conductivity and Normality of solution equation looks like with Units.

Here is how the Specific Conductivity given Equivalent Conductivity and Normality of solution equation looks like.

0.018 = \frac{12 \cdot 15}{1000}

0.018S/m = \frac{12S*cm²/Eq \cdot 15Eq/L}{1000}

0.018 = \frac{12 \cdot 15}{1000}

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Specific Conductivity given Equivalent Conductivity and Normality of solution Solution

Follow our step by step solution on how to calculate Specific Conductivity given Equivalent Conductivity and Normality of solution?

FIRST Step Consider the formula

K = \frac{Λ eq \cdot N}{1000}

Next Step Substitute values of Variables

∴

K = \frac{12S*cm²/Eq \cdot 15Eq/L}{1000}

Next Step Convert Units

∴

K = \frac{0.0012S*m²/Eq \cdot 15000mol/m³}{1000}

Next Step Prepare to Evaluate

∴

K = \frac{0.0012 \cdot 15000}{1000}

LAST Step Evaluate

∴

K = 0.018S/m

Specific Conductivity given Equivalent Conductivity and Normality of solution Formula Elements

Variables

Specific Conductance

The Specific Conductance is the ability of a substance to conduct electricity. It is the reciprocal of specific resistance.

Symbol: K

Measurement: Electric ConductivityUnit: S/m

Note: Value can be positive or negative.

Formulas to find Specific Conductance

Equivalent conductance of ions

The equivalent conductance of ions is defined as the conducting power of all the ions produced by one gram of an electrolyte in the given solution.

Symbol: Λ_eq

Measurement: Equivalent ConductanceUnit: S*cm²/Eq

Note: Value can be positive or negative.

Formulas to find Equivalent conductance of ions

Normality

Normality is the weight of solute dissolved in a liter of solution.

Symbol: N

Measurement: Molar ConcentrationUnit: Eq/L

Note: Value can be positive or negative.

Formulas to find Normality

How to Evaluate Specific Conductivity given Equivalent Conductivity and Normality of solution?

Specific Conductivity given Equivalent Conductivity and Normality of solution evaluator uses Specific Conductance = (Equivalent conductance of ions*Normality)/1000 to evaluate the Specific Conductance, The Specific conductivity given equivalent conductivity and normality of solution formula is defined as the product of equivalent conductance of ions and normality divided by 1000. Specific Conductance is denoted by K symbol.

How to evaluate Specific Conductivity given Equivalent Conductivity and Normality of solution using this online evaluator? To use this online evaluator for Specific Conductivity given Equivalent Conductivity and Normality of solution, enter Equivalent conductance of ions (Λ_eq) & Normality (N) and hit the calculate button.

FAQs on Specific Conductivity given Equivalent Conductivity and Normality of solution

What is the formula to find Specific Conductivity given Equivalent Conductivity and Normality of solution?

The formula of Specific Conductivity given Equivalent Conductivity and Normality of solution is expressed as Specific Conductance = (Equivalent conductance of ions*Normality)/1000. Here is an example- 0.018 = (0.0012*15000)/1000.

How to calculate Specific Conductivity given Equivalent Conductivity and Normality of solution?

With Equivalent conductance of ions (Λ_eq) & Normality (N) we can find Specific Conductivity given Equivalent Conductivity and Normality of solution using the formula - Specific Conductance = (Equivalent conductance of ions*Normality)/1000.

Can the Specific Conductivity given Equivalent Conductivity and Normality of solution be negative?

Yes, the Specific Conductivity given Equivalent Conductivity and Normality of solution, measured in Electric Conductivity can be negative.

Which unit is used to measure Specific Conductivity given Equivalent Conductivity and Normality of solution?

Specific Conductivity given Equivalent Conductivity and Normality of solution is usually measured using the Siemens per Meter[S/m] for Electric Conductivity. Mho per Meter[S/m], Mho per Centimeter[S/m], Abmho per Meter[S/m] are the few other units in which Specific Conductivity given Equivalent Conductivity and Normality of solution can be measured.

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Specific Conductivity given Equivalent Conductivity and Normality of solution Formula

Specific Conductivity given Equivalent Conductivity and Normality of solution Example

Specific Conductivity given Equivalent Conductivity and Normality of solution Solution

Specific Conductivity given Equivalent Conductivity and Normality of solution Formula Elements

Other formulas in Normality of Solution category

How to Evaluate Specific Conductivity given Equivalent Conductivity and Normality of solution?

FAQs on Specific Conductivity given Equivalent Conductivity and Normality of solution

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