Mass of Substance undergoing Electrolysis given Charges Calculator

✖The electrochemical equivalent of element is the mass of that element (in grams) transported by 1 coulomb of electric charge.ⓘ Electrochemical Equivalent of Element [Z]			+10% -10%
✖The Electric Charge Transfered through Circuit is amount of charge that is transfered when potential is applied.ⓘ Electric Charge Transfered through Circuit [C_tran]			+10% -10%

✖The Mass of Ions is the weight of ions reacted or formed during the electrolysis.ⓘ Mass of Substance undergoing Electrolysis given Charges [m_ion]

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Formula

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Mass of Substance undergoing Electrolysis given Charges

Formula

`"m"_{"ion"} = "Z"*"C"_{"tran"}`

Example

`"1166g"="22g/C"*"53C"`

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Mass of Substance undergoing Electrolysis given Charges Solution

STEP 0: Pre-Calculation Summary

Formula Used

Mass of Ions = Electrochemical Equivalent of Element*Electric Charge Transfered through Circuit
m_ion = Z*C_tran
This formula uses 3 Variables

Variables Used

Mass of Ions - (Measured in Kilogram) - The Mass of Ions is the weight of ions reacted or formed during the electrolysis.
Electrochemical Equivalent of Element - (Measured in Kilogram Per Coulomb) - The electrochemical equivalent of element is the mass of that element (in grams) transported by 1 coulomb of electric charge.
Electric Charge Transfered through Circuit - (Measured in Coulomb) - The Electric Charge Transfered through Circuit is amount of charge that is transfered when potential is applied.

STEP 1: Convert Input(s) to Base Unit

Electrochemical Equivalent of Element: 22 Gram Per Coulomb --> 0.022 Kilogram Per Coulomb (Check conversion here)
Electric Charge Transfered through Circuit: 53 Coulomb --> 53 Coulomb No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

m_ion = Z*C_tran --> 0.022*53

Evaluating ... ...

m_ion = 1.166

STEP 3: Convert Result to Output's Unit

1.166 Kilogram -->1166 Gram (Check conversion here)

FINAL ANSWER

1166 Gram <-- Mass of Ions

(Calculation completed in 00.004 seconds)

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Created by Prashant Singh

K J Somaiya College of science (K J Somaiya), Mumbai

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University of Hawaiʻi at Mānoa (UH Manoa), Hawaii, USA

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< 18 Equivalent Weight Calculators

Equivalent Weight of Second Element by Faraday's Second law of Electrolysis

Go Equivalent Weight of Substance 2 = Equivalent weight of substance 1*(Mass of ions 2/Mass of ions 1)

Equivalent Weight of First element by Faraday's Second law of Electrolysis

Go Equivalent weight of substance 1 = Equivalent Weight of Substance 2*(Mass of ions 1/Mass of ions 2)

Weight of Second Ion by Faraday's Second law of Electrolysis

Go Mass of ions 2 = Mass of ions 1*(Equivalent Weight of Substance 2/Equivalent weight of substance 1)

Weight of First Ion by Faraday's Second law of Electrolysis

Go Mass of ions 1 = (Equivalent weight of substance 1/Equivalent Weight of Substance 2)*Mass of ions 2

Time Required for Flowing of Current given Mass and Equivalent Weight

Go Total Time Taken = (Mass of Ions*96485)/(Equivalent Weight of Substance*Current)

Current Flowing given Mass and Equivalent Weight of Substance

Go Current = (Mass of Ions*96485)/(Equivalent Weight of Substance*Total Time Taken)

Equivalent Weight given Mass and Current Flowing

Go Equivalent Weight of Substance = (Mass of Ions*96485)/(Current*Total Time Taken)

Mass of Substance undergoing Electrolysis given Current and Equivalent Weight

Go Mass of Ions = (Equivalent Weight of Substance*Current*Total Time Taken)/96485

Mass of Substance undergoing Electrolysis given Current and Time

Go Mass of Ions = Electrochemical Equivalent of Element*Current*Total Time Taken

Moles of Electron transferred given Electrochemical Work

Go Moles of Electron Transferred = (Work Done/([Faraday]*Cell Potential))

Quantity of Charges given Equivalent Weight and Mass of Substance

Go Electric Charge Transfered through Circuit = (Mass of Ions*96485)/Equivalent Weight of Substance

Equivalent weight given Mass and Charge

Go Equivalent Weight of Substance = (Mass of Ions*96485)/Electric Charge Transfered through Circuit

Mass of Substance undergoing Electrolysis given Charges

Go Mass of Ions = Electrochemical Equivalent of Element*Electric Charge Transfered through Circuit

Theoretical Mass given Current Efficiency and Actual Mass

Go Theoretical Mass Deposited = ((Actual Mass Deposited/Current Efficiency)*100)

Mass of Primary Product formed at Electrode

Go Mass = Electrochemical Equivalent*Current*Time

Mass of Substance undergoing Electrolysis given Charges and Equivalent Weight

Go Mass of Ions = (Equivalent Weight of Substance*Charge)/96485

Electrochemical Equivalent given Equivalent Weight

Go Electrochemical Equivalent of Element = (Equivalent Weight of Substance/96485)

Equivalent Weight given Electrochemical Equivalent

Go Equivalent Weight = (Electrochemical Equivalent of Element*96485)

Mass of Substance undergoing Electrolysis given Charges Formula

Mass of Ions = Electrochemical Equivalent of Element*Electric Charge Transfered through Circuit
m_ion = Z*C_tran

What is faraday's first law of electrolysis?

Faraday's first electrolysis Law states that the quantity of reaction taking place in terms of the mass of ions formed or discharged from an electrolyte is proportional to the amount of electric current passed. Since electric current (ampere) is the number of coulombs (Q) flowing in one second.

How to Calculate Mass of Substance undergoing Electrolysis given Charges?

Mass of Substance undergoing Electrolysis given Charges calculator uses Mass of Ions = Electrochemical Equivalent of Element*Electric Charge Transfered through Circuit to calculate the Mass of Ions, The Mass of substance undergoing electrolysis given charges formula is defined as the product of electrochemical equivalent of the element to the charge transferred. Mass of Ions is denoted by m_ion symbol.

How to calculate Mass of Substance undergoing Electrolysis given Charges using this online calculator? To use this online calculator for Mass of Substance undergoing Electrolysis given Charges, enter Electrochemical Equivalent of Element (Z) & Electric Charge Transfered through Circuit (C_tran) and hit the calculate button. Here is how the Mass of Substance undergoing Electrolysis given Charges calculation can be explained with given input values -> 1.2E+6 = 0.022*53.

FAQ

What is Mass of Substance undergoing Electrolysis given Charges?

The Mass of substance undergoing electrolysis given charges formula is defined as the product of electrochemical equivalent of the element to the charge transferred and is represented as m_ion = Z*C_tran or Mass of Ions = Electrochemical Equivalent of Element*Electric Charge Transfered through Circuit. The electrochemical equivalent of element is the mass of that element (in grams) transported by 1 coulomb of electric charge & The Electric Charge Transfered through Circuit is amount of charge that is transfered when potential is applied.

How to calculate Mass of Substance undergoing Electrolysis given Charges?

The Mass of substance undergoing electrolysis given charges formula is defined as the product of electrochemical equivalent of the element to the charge transferred is calculated using Mass of Ions = Electrochemical Equivalent of Element*Electric Charge Transfered through Circuit. To calculate Mass of Substance undergoing Electrolysis given Charges, you need Electrochemical Equivalent of Element (Z) & Electric Charge Transfered through Circuit (C_tran). With our tool, you need to enter the respective value for Electrochemical Equivalent of Element & Electric Charge Transfered through Circuit 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 Mass of Ions?

In this formula, Mass of Ions uses Electrochemical Equivalent of Element & Electric Charge Transfered through Circuit. We can use 3 other way(s) to calculate the same, which is/are as follows -

Mass of Ions = Electrochemical Equivalent of Element*Current*Total Time Taken
Mass of Ions = (Equivalent Weight of Substance*Charge)/96485
Mass of Ions = (Equivalent Weight of Substance*Current*Total Time Taken)/96485

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