Concentration given CI Solution

STEP 0: Pre-Calculation Summary
Formula Used
Concentration given CI = Cathodic Current/(2.69*(10^8)*(Number of electrons given CI^1.5)*Area of Electrode*(Diffusion Constant^0.5)*(Sweep Rate^0.5))
CCI = Ic/(2.69*(10^8)*(Ne^1.5)*A*(D^0.5)*(ν^0.5))
This formula uses 6 Variables
Variables Used
Concentration given CI - Concentration given CI is the abundance of a constituent divided by the total volume of a mixture.
Cathodic Current - Cathodic Current is a flow of charged particles, such as electrons or ions, moving through an electrical conductor or space.
Number of electrons given CI - Number of electrons given CI is equal to the number of protons in the nucleus, which is also known as the atomic number.
Area of Electrode - Area of Electrode is the area where an electronically conducting phase and an ionically conducting phase come into contact.
Diffusion Constant - Diffusion Constant also known as the diffusion coefficient or diffusivity, is a physical constant that measures the rate of material transport.
Sweep Rate - Sweep Rate is the speed at which a controller increases or decreases frequency in sine vibration testing.
STEP 1: Convert Input(s) to Base Unit
Cathodic Current: 70 --> No Conversion Required
Number of electrons given CI: 10 --> No Conversion Required
Area of Electrode: 80 --> No Conversion Required
Diffusion Constant: 4 --> No Conversion Required
Sweep Rate: 2.5 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
CCI = Ic/(2.69*(10^8)*(Ne^1.5)*A*(D^0.5)*(ν^0.5)) --> 70/(2.69*(10^8)*(10^1.5)*80*(4^0.5)*(2.5^0.5))
Evaluating ... ...
CCI = 3.25278810408922E-11
STEP 3: Convert Result to Output's Unit
3.25278810408922E-11 --> No Conversion Required
FINAL ANSWER
3.25278810408922E-11 3.3E-11 <-- Concentration given CI
(Calculation completed in 00.004 seconds)

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25 Potentiometry and Voltametry Calculators

Number of Electron given CI
​ Go Number of electrons given CI = (Cathodic Current/(2.69*(10^8)*Area of Electrode*Concentration given CI*(Diffusion Constant^0.5)*(Sweep Rate^0.5)))^(2/3)
Maximum Diffusion Current
​ Go Maximum Diffusion Current = 708*Moles of Analyte*(Diffusion Constant^(1/2))*(Rate of Flow of Mercury^(2/3))*(Drop Time^(1/6))*Concentration at given time
Area of Electrode
​ Go Area of Electrode = (Cathodic Current/(2.69*(10^8)*Number of electrons given CI*Concentration given CI*(Diffusion Constant^0.5)*(Sweep Rate^0.5)))^(2/3)
Concentration given CI
​ Go Concentration given CI = Cathodic Current/(2.69*(10^8)*(Number of electrons given CI^1.5)*Area of Electrode*(Diffusion Constant^0.5)*(Sweep Rate^0.5))
Cathodic Current
​ Go Cathodic Current = 2.69*(10^8)*(Number of electrons given CI^1.5)*Area of Electrode*Concentration given CI*(Diffusion Constant^0.5)*(Sweep Rate^0.5)
Diffusion Constant given Current
​ Go Diffusion Constant = (Cathodic Current/(2.69*(10^8)*Number of electrons given CI*Concentration given CI*(Sweep Rate^0.5)*Area of Electrode))^(4/3)
Sweep Rate
​ Go Sweep Rate = (Cathodic Current/(2.69*(10^8)*Number of electrons given CI*Concentration given CI*(Diffusion Constant^0.5)*Area of Electrode))^(4/3)
Current in Potentiometry
​ Go Current in Potentiometry = (Cell Potential in Potentiometry-Applied Potential in Potentiometry)/Resistance in Potentiometry
Applied Potential
​ Go Applied Potential in Potentiometry = Cell Potential in Potentiometry+(Current in Potentiometry*Resistance in Potentiometry)
EMF at Cell Junction
​ Go Junction EMF = Cell Potential in Potentiometry-Indicator EMF+Reference EMF
Cell Potential
​ Go Cell Potential in Potentiometry = Indicator EMF-Reference EMF+Junction EMF
Indicator EMF
​ Go Indicator EMF = Reference EMF-Junction EMF+Cell Potential in Potentiometry
Reference EMF
​ Go Reference EMF = Indicator EMF+Junction EMF-Cell Potential in Potentiometry
Number of Moles of Electron
​ Go Moles of Electron = Charge given Moles/(Moles of Analyte*[Faraday])
Moles of Analyte
​ Go Moles of Analyte = Charge given Moles/(Moles of Electron*[Faraday])
Charge given Moles
​ Go Charge given Moles = Moles of Electron*Moles of Analyte*[Faraday]
Potentiometric Concentration
​ Go Concentration at given time = Potentiometric Current/Potentiometric Constant
Potentiometric Constant
​ Go Potentiometric Constant = Potentiometric Current/Concentration at given time
Potentiometric Current
​ Go Potentiometric Current = Potentiometric Constant*Concentration at given time
Moles of Electron given Potentials
​ Go Moles of Electron = 57/(Anodic Potential-Cathodic Potential)
Cathodic Potential
​ Go Cathodic Potential = Anodic Potential-(57/Moles of Electron)
Anodic Potential
​ Go Anodic Potential = Cathodic Potential+(57/Moles of Electron)
Cathodic Potential given half potential
​ Go Cathodic Potential = (Half Potential/0.5)-Anodic Potential
Anodic Potential given half potential
​ Go Anodic Potential = (Half Potential/0.5)-Cathodic Potential
Half Potential
​ Go Half Potential = 0.5*(Anodic Potential+Cathodic Potential)

Concentration given CI Formula

Concentration given CI = Cathodic Current/(2.69*(10^8)*(Number of electrons given CI^1.5)*Area of Electrode*(Diffusion Constant^0.5)*(Sweep Rate^0.5))
CCI = Ic/(2.69*(10^8)*(Ne^1.5)*A*(D^0.5)*(ν^0.5))

What is the process of voltammetry?

In voltammetry, the current is permitted to flow and electrolysis takes place in the electrochemical cell. Electrolysis is described as a process whereby solution components are converted from one oxidation state to another at an electrode-solution surface by means of a current flow.

How to Calculate Concentration given CI?

Concentration given CI calculator uses Concentration given CI = Cathodic Current/(2.69*(10^8)*(Number of electrons given CI^1.5)*Area of Electrode*(Diffusion Constant^0.5)*(Sweep Rate^0.5)) to calculate the Concentration given CI, The Concentration given CI formula is the abundance of a constituent divided by the total volume of a mixture. Concentration given CI is denoted by CCI symbol.

How to calculate Concentration given CI using this online calculator? To use this online calculator for Concentration given CI, enter Cathodic Current (Ic), Number of electrons given CI (Ne), Area of Electrode (A), Diffusion Constant (D) & Sweep Rate (ν) and hit the calculate button. Here is how the Concentration given CI calculation can be explained with given input values -> 3.3E-11 = 70/(2.69*(10^8)*(10^1.5)*80*(4^0.5)*(2.5^0.5)).

FAQ

What is Concentration given CI?
The Concentration given CI formula is the abundance of a constituent divided by the total volume of a mixture and is represented as CCI = Ic/(2.69*(10^8)*(Ne^1.5)*A*(D^0.5)*(ν^0.5)) or Concentration given CI = Cathodic Current/(2.69*(10^8)*(Number of electrons given CI^1.5)*Area of Electrode*(Diffusion Constant^0.5)*(Sweep Rate^0.5)). Cathodic Current is a flow of charged particles, such as electrons or ions, moving through an electrical conductor or space, Number of electrons given CI is equal to the number of protons in the nucleus, which is also known as the atomic number, Area of Electrode is the area where an electronically conducting phase and an ionically conducting phase come into contact, Diffusion Constant also known as the diffusion coefficient or diffusivity, is a physical constant that measures the rate of material transport & Sweep Rate is the speed at which a controller increases or decreases frequency in sine vibration testing.
How to calculate Concentration given CI?
The Concentration given CI formula is the abundance of a constituent divided by the total volume of a mixture is calculated using Concentration given CI = Cathodic Current/(2.69*(10^8)*(Number of electrons given CI^1.5)*Area of Electrode*(Diffusion Constant^0.5)*(Sweep Rate^0.5)). To calculate Concentration given CI, you need Cathodic Current (Ic), Number of electrons given CI (Ne), Area of Electrode (A), Diffusion Constant (D) & Sweep Rate (ν). With our tool, you need to enter the respective value for Cathodic Current, Number of electrons given CI, Area of Electrode, Diffusion Constant & Sweep Rate 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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