Quantity of Charges given Equivalent Weight and Mass of Substance Solution

STEP 0: Pre-Calculation Summary
Formula Used
Electric Charge Transfered through Circuit = (Mass of Ions*96485)/Equivalent Weight of Substance
Ctran = (mion*96485)/E
This formula uses 3 Variables
Variables Used
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.
Mass of Ions - (Measured in Kilogram) - The Mass of Ions is the weight of ions reacted or formed during the electrolysis.
Equivalent Weight of Substance - (Measured in Kilogram) - Equivalent Weight of Substance is the ratio of molecular weight to the charge or valency of the substance.
STEP 1: Convert Input(s) to Base Unit
Mass of Ions: 5.6 Gram --> 0.0056 Kilogram (Check conversion here)
Equivalent Weight of Substance: 55 Gram --> 0.055 Kilogram (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Ctran = (mion*96485)/E --> (0.0056*96485)/0.055
Evaluating ... ...
Ctran = 9823.92727272727
STEP 3: Convert Result to Output's Unit
9823.92727272727 Coulomb --> No Conversion Required
FINAL ANSWER
9823.92727272727 9823.927 Coulomb <-- Electric Charge Transfered through Circuit
(Calculation completed in 00.004 seconds)

Credits

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)

Quantity of Charges given Equivalent Weight and Mass of Substance Formula

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

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 Quantity of Charges given Equivalent Weight and Mass of Substance?

Quantity of Charges given Equivalent Weight and Mass of Substance calculator uses Electric Charge Transfered through Circuit = (Mass of Ions*96485)/Equivalent Weight of Substance to calculate the Electric Charge Transfered through Circuit, The Quantity of charges given equivalent weight and mass of substance formula is defined as the product of the mass of the ions and charge of one faraday per equivalent weight of the substance. Electric Charge Transfered through Circuit is denoted by Ctran symbol.

How to calculate Quantity of Charges given Equivalent Weight and Mass of Substance using this online calculator? To use this online calculator for Quantity of Charges given Equivalent Weight and Mass of Substance, enter Mass of Ions (mion) & Equivalent Weight of Substance (E) and hit the calculate button. Here is how the Quantity of Charges given Equivalent Weight and Mass of Substance calculation can be explained with given input values -> 9823.927 = (0.0056*96485)/0.055.

FAQ

What is Quantity of Charges given Equivalent Weight and Mass of Substance?
The Quantity of charges given equivalent weight and mass of substance formula is defined as the product of the mass of the ions and charge of one faraday per equivalent weight of the substance and is represented as Ctran = (mion*96485)/E or Electric Charge Transfered through Circuit = (Mass of Ions*96485)/Equivalent Weight of Substance. The Mass of Ions is the weight of ions reacted or formed during the electrolysis & Equivalent Weight of Substance is the ratio of molecular weight to the charge or valency of the substance.
How to calculate Quantity of Charges given Equivalent Weight and Mass of Substance?
The Quantity of charges given equivalent weight and mass of substance formula is defined as the product of the mass of the ions and charge of one faraday per equivalent weight of the substance is calculated using Electric Charge Transfered through Circuit = (Mass of Ions*96485)/Equivalent Weight of Substance. To calculate Quantity of Charges given Equivalent Weight and Mass of Substance, you need Mass of Ions (mion) & Equivalent Weight of Substance (E). With our tool, you need to enter the respective value for Mass of Ions & Equivalent Weight of Substance 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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