Boiling Point of Electrolyte Calculator

✖Ambient Air Temperature to the temperature of the air surrounding a particular object or area.ⓘ Ambient Air Temperature [θ_o]			+10% -10%
✖Heat Absorption of Electrolyte refers to its ability to absorb heat without significantly increasing in temperature.ⓘ Heat Absorption of Electrolyte [H_e]			+10% -10%
✖Volume Flow Rate is the volume of fluid that passes per unit of time.ⓘ Volume Flow Rate [q]			+10% -10%
✖The Density of Electrolyte shows the denseness of that electrolyte in a specific given area, this is taken as mass per unit volume of a given object.ⓘ Density of Electrolyte [ρ_e]			+10% -10%
✖Specific Heat Capacity of Electrolyte is the heat required to raise the temperature of the unit mass of a given substance by a given amount.ⓘ Specific Heat Capacity of Electrolyte [c_e]			+10% -10%

✖Boiling Point of Electrolyte is the temperature at which a liquid starts to boil and transforms to vapor.ⓘ Boiling Point of Electrolyte [θ_B]

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Boiling Point of Electrolyte Solution

STEP 0: Pre-Calculation Summary

Formula Used

Boiling Point of Electrolyte = Ambient Air Temperature+Heat Absorption of Electrolyte/(Volume Flow Rate*Density of Electrolyte*Specific Heat Capacity of Electrolyte)
θ_B = θ_o+H_e/(q*ρ_e*c_e)
This formula uses 6 Variables

Variables Used

Boiling Point of Electrolyte - (Measured in Kelvin) - Boiling Point of Electrolyte is the temperature at which a liquid starts to boil and transforms to vapor.
Ambient Air Temperature - (Measured in Kelvin) - Ambient Air Temperature to the temperature of the air surrounding a particular object or area.
Heat Absorption of Electrolyte - (Measured in Watt) - Heat Absorption of Electrolyte refers to its ability to absorb heat without significantly increasing in temperature.
Volume Flow Rate - (Measured in Cubic Meter per Second) - Volume Flow Rate is the volume of fluid that passes per unit of time.
Density of Electrolyte - (Measured in Kilogram per Cubic Meter) - The Density of Electrolyte shows the denseness of that electrolyte in a specific given area, this is taken as mass per unit volume of a given object.
Specific Heat Capacity of Electrolyte - (Measured in Joule per Kilogram per K) - Specific Heat Capacity of Electrolyte is the heat required to raise the temperature of the unit mass of a given substance by a given amount.

STEP 1: Convert Input(s) to Base Unit

Ambient Air Temperature: 308.15 Kelvin --> 308.15 Kelvin No Conversion Required
Heat Absorption of Electrolyte: 12 Kilowatt --> 12000 Watt (Check conversion here)
Volume Flow Rate: 47990.86 Cubic Millimeter per Second --> 4.799086E-05 Cubic Meter per Second (Check conversion here)
Density of Electrolyte: 997 Kilogram per Cubic Meter --> 997 Kilogram per Cubic Meter No Conversion Required
Specific Heat Capacity of Electrolyte: 4.18 Kilojoule per Kilogram per K --> 4180 Joule per Kilogram per K (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

θ_B = θ_o+H_e/(q*ρ_e*c_e) --> 308.15+12000/(4.799086E-05*997*4180)

Evaluating ... ...

θ_B = 368.15000317532

STEP 3: Convert Result to Output's Unit

368.15000317532 Kelvin --> No Conversion Required

FINAL ANSWER

368.15000317532 ≈ 368.15 Kelvin <-- Boiling Point of Electrolyte

(Calculation completed in 00.004 seconds)

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Created by Rajat Vishwakarma

University Institute of Technology RGPV (UIT - RGPV), Bhopal

Rajat Vishwakarma has created this Calculator and 400+ more calculators!

Verified by Vaibhav Malani

National Institute of Technology (NIT), Tiruchirapalli

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< Heat in Electrolyte Calculators

Flow Rate of Electrolyte from Heat Absorbed Electrolyte

LaTeX Go Volume Flow Rate = Heat Absorption of Electrolyte/(Density of Electrolyte*Specific Heat Capacity of Electrolyte*(Boiling Point of Electrolyte-Ambient Air Temperature))

Density of Electrolyte from Heat Absorbed Electrolyte

LaTeX Go Density of Electrolyte = Heat Absorption of Electrolyte/(Volume Flow Rate*Specific Heat Capacity of Electrolyte*(Boiling Point of Electrolyte-Ambient Air Temperature))

Specific Heat of Electrolyte

LaTeX Go Specific Heat Capacity of Electrolyte = Heat Absorption of Electrolyte/(Volume Flow Rate*Density of Electrolyte*(Boiling Point of Electrolyte-Ambient Air Temperature))

Heat Absorbed by Electrolyte

LaTeX Go Heat Absorption of Electrolyte = Volume Flow Rate*Density of Electrolyte*Specific Heat Capacity of Electrolyte*(Boiling Point of Electrolyte-Ambient Air Temperature)

Boiling Point of Electrolyte Formula

LaTeX Go

Boiling Point of Electrolyte = Ambient Air Temperature+Heat Absorption of Electrolyte/(Volume Flow Rate*Density of Electrolyte*Specific Heat Capacity of Electrolyte)
θ_B = θ_o+H_e/(q*ρ_e*c_e)

What is Faraday's I law of electrolysis ?

The first law of Faraday’s electrolysis states that the chemical change produced during electrolysis is proportional to the current passed and the electrochemical equivalence of the anode material.

How to Calculate Boiling Point of Electrolyte?

Boiling Point of Electrolyte calculator uses Boiling Point of Electrolyte = Ambient Air Temperature+Heat Absorption of Electrolyte/(Volume Flow Rate*Density of Electrolyte*Specific Heat Capacity of Electrolyte) to calculate the Boiling Point of Electrolyte, The Boiling point of electrolyte formula is defined as the temperature at which the conversion of liquid to vapor state begins at a given pressure. Boiling Point of Electrolyte is denoted by θ_B symbol.

How to calculate Boiling Point of Electrolyte using this online calculator? To use this online calculator for Boiling Point of Electrolyte, enter Ambient Air Temperature (θ_o), Heat Absorption of Electrolyte (H_e), Volume Flow Rate (q), Density of Electrolyte (ρ_e) & Specific Heat Capacity of Electrolyte (c_e) and hit the calculate button. Here is how the Boiling Point of Electrolyte calculation can be explained with given input values -> 60421.97 = 308.15+12000/(4.799086E-05*997*4180).

FAQ

What is Boiling Point of Electrolyte?

The Boiling point of electrolyte formula is defined as the temperature at which the conversion of liquid to vapor state begins at a given pressure and is represented as θ_B = θ_o+H_e/(q*ρ_e*c_e) or Boiling Point of Electrolyte = Ambient Air Temperature+Heat Absorption of Electrolyte/(Volume Flow Rate*Density of Electrolyte*Specific Heat Capacity of Electrolyte). Ambient Air Temperature to the temperature of the air surrounding a particular object or area, Heat Absorption of Electrolyte refers to its ability to absorb heat without significantly increasing in temperature, Volume Flow Rate is the volume of fluid that passes per unit of time, The Density of Electrolyte shows the denseness of that electrolyte in a specific given area, this is taken as mass per unit volume of a given object & Specific Heat Capacity of Electrolyte is the heat required to raise the temperature of the unit mass of a given substance by a given amount.

How to calculate Boiling Point of Electrolyte?

The Boiling point of electrolyte formula is defined as the temperature at which the conversion of liquid to vapor state begins at a given pressure is calculated using Boiling Point of Electrolyte = Ambient Air Temperature+Heat Absorption of Electrolyte/(Volume Flow Rate*Density of Electrolyte*Specific Heat Capacity of Electrolyte). To calculate Boiling Point of Electrolyte, you need Ambient Air Temperature (θ_o), Heat Absorption of Electrolyte (H_e), Volume Flow Rate (q), Density of Electrolyte (ρ_e) & Specific Heat Capacity of Electrolyte (c_e). With our tool, you need to enter the respective value for Ambient Air Temperature, Heat Absorption of Electrolyte, Volume Flow Rate, Density of Electrolyte & Specific Heat Capacity of Electrolyte 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 Boiling Point of Electrolyte?

In this formula, Boiling Point of Electrolyte uses Ambient Air Temperature, Heat Absorption of Electrolyte, Volume Flow Rate, Density of Electrolyte & Specific Heat Capacity of Electrolyte. We can use 1 other way(s) to calculate the same, which is/are as follows -

Boiling Point of Electrolyte = Ambient Air Temperature+(Electric Current^2*Resistance of Gap Between Work And Tool)/(Density of Electrolyte*Specific Heat Capacity of Electrolyte*Volume Flow Rate)

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