Quantity of Charges given Mass of Substance Solution

STEP 0: Pre-Calculation Summary
Formula Used
Charge = Mass of Ions/Electrochemical Equivalent of Element
q = mion/Z
This formula uses 3 Variables
Variables Used
Charge - (Measured in Coulomb) - A Charge is the fundamental property of forms of matter that exhibit electrostatic attraction or repulsion in the presence of other matter.
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.
STEP 1: Convert Input(s) to Base Unit
Mass of Ions: 5.6 Gram --> 0.0056 Kilogram (Check conversion here)
Electrochemical Equivalent of Element: 22 Gram Per Coulomb --> 0.022 Kilogram Per Coulomb (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
q = mion/Z --> 0.0056/0.022
Evaluating ... ...
q = 0.254545454545455
STEP 3: Convert Result to Output's Unit
0.254545454545455 Coulomb --> No Conversion Required
FINAL ANSWER
0.254545454545455 0.254545 Coulomb <-- Charge
(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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25 Electrolytes & Ions Calculators

Valencies of Positive and Negative Ions of Concentration Cell with Transference
Go Valencies of Positive and Negative Ions = ((Transport Number of Anion*Total number of Ions*[R]*Temperature)/(EMF of Cell*Number of Positive and Negative Ions*[Faraday]))*ln(Cathodic Ionic Activity/Anodic Ionic Activity)
Total Number of Ions of Concentration Cell with Transference given Valencies
Go Total number of Ions = ((EMF of Cell*Number of Positive and Negative Ions*Valencies of Positive and Negative Ions*[Faraday])/(Transport Number of Anion*Temperature*[R]))/ln(Cathodic Ionic Activity/Anodic Ionic Activity)
Number of Positive and Negative Ions of Concentration Cell with Transference
Go Number of Positive and Negative Ions = ((Transport Number of Anion*Total number of Ions*[R]*Temperature)/(EMF of Cell*Valencies of Positive and Negative Ions*[Faraday]))*ln(Cathodic Ionic Activity/Anodic Ionic Activity)
Fugacity of Cathodic Electrolyte of Concentration Cell without Transference
Go Cathodic Fugacity = (exp((EMF of Cell*[Faraday])/(2*[R]*Temperature)))*((Anodic Concentration*Anodic Fugacity)/(Cathodic Concentration))
Fugacity of Anodic Electrolyte of Concentration Cell without Transference
Go Anodic Fugacity = ((Cathodic Concentration*Cathodic Fugacity)/Anodic Concentration)/(exp((EMF of Cell*[Faraday])/(2*[R]*Temperature)))
pOH of Salt of Strong Base and Weak Acid
Go Negative Log of Hydroxyl Concentration = 14-(Negative Log of Acid Ionization Constant+Negative Log of Ionic Product of Water+log10(Concentration of Salt))/2
pOH of Salt of Weak Base and Strong Base
Go Negative Log of Hydroxyl Concentration = 14-(Negative Log of Ionic Product of Water-Negative Log of Base Ionization Constant-log10(Concentration of Salt))/2
pH of Salt of Weak Acid and Strong Base
Go Negative Log of Hydronium Concentration = (Negative Log of Ionic Product of Water+Negative Log of Acid Ionization Constant+log10(Concentration of Salt))/2
pH of Salt of Weak Base and Strong Base
Go Negative Log of Hydronium Concentration = (Negative Log of Ionic Product of Water-Negative Log of Base Ionization Constant-log10(Concentration of Salt))/2
pOH of Salt of Weak Acid and Weak Base
Go Negative Log of Hydroxyl Concentration = 14-(Negative Log of Ionic Product of Water+Negative Log of Acid Ionization Constant-Negative Log of Base Ionization Constant)/2
pH of Salt of Weak Acid and Weak base
Go Negative Log of Hydronium Concentration = (Negative Log of Ionic Product of Water+Negative Log of Acid Ionization Constant-Negative Log of Base Ionization Constant)/2
pH Value of Ionic Product of Water
Go Negative Log of H+ Conc. for Ionic Pdt. of H₂O = Negative Log of Acid Ionization Constant+Negative Log of Base Ionization Constant
Time required for Flowing of Charge given Mass and Time
Go Total Time Taken = Mass of Ions/(Electrochemical Equivalent of Element*Electric Current)
Cell Potential given Electrochemical Work
Go Cell Potential = (Work Done/(Moles of Electron Transferred*[Faraday]))
Concentration of Hydronium Ion using pOH
Go Hydronium Ion Concentration = 10^Negative Log of Hydroxyl Concentration*Ionic Product of Water
Ionic Product of Water
Go Ionic Product of Water = Constant of Ionization of Acids*Constant Of Ionization Of Bases
Fugacity of Electrolyte given Activities
Go Fugacity = (sqrt(Ionic Activity))/Actual Concentration
pOH using Concentration of Hydroxide ion
Go Negative Log of Hydroxyl Concentration = 14+log10(Hydronium Ion Concentration)
pH of Water using Concentration
Go Negative Log of Hydronium Concentration = -log10(Hydronium Ion Concentration)
Quantity of Charges given Mass of Substance
Go Charge = Mass of Ions/Electrochemical Equivalent of Element
Relation between pH and pOH
Go Negative Log of Hydronium Concentration = 14-Negative Log of Hydroxyl Concentration
pOH of Strong acid and Strong base
Go Negative Log of Hydroxyl Concentration = Negative Log of Ionic Product of Water/2
Ionic Mobility
Go Ionic Mobility = Speed of Ions/Potential Gradient
Ionic Activity given Molality of Solution
Go Ionic Activity = (Activity Coefficient*Molality)
Concentration of Hydronium ion using pH
Go Hydronium Ion Concentration = 10^(-Negative Log of Hydronium Concentration)

Quantity of Charges given Mass of Substance Formula

Charge = Mass of Ions/Electrochemical Equivalent of Element
q = mion/Z

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 Mass of Substance?

Quantity of Charges given Mass of Substance calculator uses Charge = Mass of Ions/Electrochemical Equivalent of Element to calculate the Charge, The Quantity of Charges given Mass of Substance formula is defined as the ratio of the mass of ions formed or created to the electrochemical equivalent of the elements. Charge is denoted by q symbol.

How to calculate Quantity of Charges given Mass of Substance using this online calculator? To use this online calculator for Quantity of Charges given Mass of Substance, enter Mass of Ions (mion) & Electrochemical Equivalent of Element (Z) and hit the calculate button. Here is how the Quantity of Charges given Mass of Substance calculation can be explained with given input values -> 0.254545 = 0.0056/0.022.

FAQ

What is Quantity of Charges given Mass of Substance?
The Quantity of Charges given Mass of Substance formula is defined as the ratio of the mass of ions formed or created to the electrochemical equivalent of the elements and is represented as q = mion/Z or Charge = Mass of Ions/Electrochemical Equivalent of Element. The Mass of Ions is the weight of ions reacted or formed during the electrolysis & The electrochemical equivalent of element is the mass of that element (in grams) transported by 1 coulomb of electric charge.
How to calculate Quantity of Charges given Mass of Substance?
The Quantity of Charges given Mass of Substance formula is defined as the ratio of the mass of ions formed or created to the electrochemical equivalent of the elements is calculated using Charge = Mass of Ions/Electrochemical Equivalent of Element. To calculate Quantity of Charges given Mass of Substance, you need Mass of Ions (mion) & Electrochemical Equivalent of Element (Z). With our tool, you need to enter the respective value for Mass of Ions & Electrochemical Equivalent of Element 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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