Supply Voltage for Electrolysis Calculator

✖Electric current is the rate of flow of electric charge through a circuit, measured in amperes.ⓘ Electric Current [I]			+10% -10%
✖Ohmic resistance is the material's opposition to the flow of electric current; measured in ohms.ⓘ Ohmic Resistance [R_e]			+10% -10%

✖Supply Voltage is the voltage required to charge a given device within a given time.ⓘ Supply Voltage for Electrolysis [V_s]

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Formula

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Supply Voltage for Electrolysis

Formula

`"V"_{"s"} = "I"*"R"_{"e"}`

Example

`"9.869V"="1000A"*"0.009869Ω"`

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Supply Voltage for Electrolysis Solution

STEP 0: Pre-Calculation Summary

Formula Used

Supply Voltage = Electric Current*Ohmic Resistance
V_s = I*R_e
This formula uses 3 Variables

Variables Used

Supply Voltage - (Measured in Volt) - Supply Voltage is the voltage required to charge a given device within a given time.
Electric Current - (Measured in Ampere) - Electric current is the rate of flow of electric charge through a circuit, measured in amperes.
Ohmic Resistance - (Measured in Ohm) - Ohmic resistance is the material's opposition to the flow of electric current; measured in ohms.

STEP 1: Convert Input(s) to Base Unit

Electric Current: 1000 Ampere --> 1000 Ampere No Conversion Required
Ohmic Resistance: 0.009869 Ohm --> 0.009869 Ohm No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

V_s = I*R_e --> 1000*0.009869

Evaluating ... ...

V_s = 9.869

STEP 3: Convert Result to Output's Unit

9.869 Volt --> No Conversion Required

FINAL ANSWER

9.869 Volt <-- Supply Voltage

(Calculation completed in 00.004 seconds)

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Credits

Created by Kumar Siddhant

Indian Institute of Information Technology, Design and Manufacturing (IIITDM), Jabalpur

Kumar Siddhant has created this Calculator and 400+ more calculators!

Verified by Parul Keshav

National Institute of Technology (NIT), Srinagar

Parul Keshav has verified this Calculator and 400+ more calculators!

< 15 Current in ECM Calculators

Current Required in ECM

Go Electric Current = sqrt((Volume Flow Rate*Density of Electrolyte*Specific Heat Capacity of Electrolyte*(Boiling Point of Electrolyte-Ambient Air Temperature))/Resistance of Gap Between Work and Tool)

Current Efficiency given Gap between Tool and Work Surface

Go Current Efficiency in Decimal = Gap Between Tool and Work Surface*Specific Resistance of The Electrolyte*Work Piece Density*Feed Speed/(Supply Voltage*Electrochemical Equivalent)

Area of Work Exposed to Electrolysis given Tool Feed Speed

Go Area of Penetration = Electrochemical Equivalent*Current Efficiency in Decimal*Electric Current/(Feed Speed*Work Piece Density)

Electrochemical Equivalent of Work given Tool Feed Speed

Go Electrochemical Equivalent = Feed Speed*Work Piece Density*Area of Penetration/(Current Efficiency in Decimal*Electric Current)

Current Efficiency given Tool Feed Speed

Go Current Efficiency in Decimal = Feed Speed*Work Piece Density*Area of Penetration/(Electrochemical Equivalent*Electric Current)

Current Supplied given Tool Feed Speed

Go Electric Current = Feed Speed*Work Piece Density*Area of Penetration/(Electrochemical Equivalent*Current Efficiency in Decimal)

Tool Feed Speed given Current Supplied

Go Feed Speed = Current Efficiency in Decimal*Electrochemical Equivalent*Electric Current/(Work Piece Density*Area of Penetration)

Density of Work given Tool Feed Speed

Go Work Piece Density = Electrochemical Equivalent*Current Efficiency in Decimal*Electric Current/(Feed Speed*Area of Penetration)

Current Supplied for Electrolysis given Specific Resistivity of Electrolyte

Go Electric Current = Area of Penetration*Supply Voltage/(Gap Between Tool and Work Surface*Specific Resistance of The Electrolyte)

Area of Work Exposed to Electrolysis given Supply Current

Go Area of Penetration = Specific Resistance of The Electrolyte*Gap Between Tool and Work Surface*Electric Current/Supply Voltage

Current Efficiency given Volumetric Material Removal Rate

Go Current Efficiency in Decimal = Metal Removal Rate*Work Piece Density/(Electrochemical Equivalent*Electric Current)

Current Supplied given Volumetric Material Removal Rate

Go Electric Current = Metal Removal Rate*Work Piece Density/(Electrochemical Equivalent*Current Efficiency in Decimal)

Resistance Owing to Electrolyte given Supply Current and Voltage

Go Ohmic Resistance = Supply Voltage/Electric Current

Current Supplied for Electrolysis

Go Electric Current = Supply Voltage/Ohmic Resistance

Supply Voltage for Electrolysis

Go Supply Voltage = Electric Current*Ohmic Resistance

Supply Voltage for Electrolysis Formula

Supply Voltage = Electric Current*Ohmic Resistance
V_s = I*R_e

Voltage for ECM

The voltage is required to be applied for the electrochemical reaction to proceed at a steady-state. That voltage or potential difference is around 2 to 30 V. The applied potential
the difference, however, also overcomes the following resistances or potential drops.
1. The electrode potential
2. The activation overpotential
3. Ohmic potential drop
4. Concentration overpotential
5. Ohmic resistance of electrolyte

How to Calculate Supply Voltage for Electrolysis?

Supply Voltage for Electrolysis calculator uses Supply Voltage = Electric Current*Ohmic Resistance to calculate the Supply Voltage, The Supply Voltage for Electrolysis is defined as the Potential Difference across which the electrolysis is done for ECM. Supply Voltage is denoted by V_s symbol.

How to calculate Supply Voltage for Electrolysis using this online calculator? To use this online calculator for Supply Voltage for Electrolysis, enter Electric Current (I) & Ohmic Resistance (R_e) and hit the calculate button. Here is how the Supply Voltage for Electrolysis calculation can be explained with given input values -> 9.979 = 1000*0.009869.

FAQ

What is Supply Voltage for Electrolysis?

The Supply Voltage for Electrolysis is defined as the Potential Difference across which the electrolysis is done for ECM and is represented as V_s = I*R_e or Supply Voltage = Electric Current*Ohmic Resistance. Electric current is the rate of flow of electric charge through a circuit, measured in amperes & Ohmic resistance is the material's opposition to the flow of electric current; measured in ohms.

How to calculate Supply Voltage for Electrolysis?

The Supply Voltage for Electrolysis is defined as the Potential Difference across which the electrolysis is done for ECM is calculated using Supply Voltage = Electric Current*Ohmic Resistance. To calculate Supply Voltage for Electrolysis, you need Electric Current (I) & Ohmic Resistance (R_e). With our tool, you need to enter the respective value for Electric Current & Ohmic Resistance 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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