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Specific Heat of Electrolyte from Volume Flow Rate Formula

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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. Check FAQs

c e = \frac{I^{2} \cdot R}{ρ e \cdot q \cdot (θ B - θ o)}

c_e - Specific Heat Capacity of Electrolyte?I - Electric Current?R - Resistance of Gap Between Work And Tool?ρ_e - Density of Electrolyte?q - Volume Flow Rate?θ_B - Boiling Point of Electrolyte?θ_o - Ambient Air Temperature?

Specific Heat of Electrolyte from Volume Flow Rate Example

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Here is how the Specific Heat of Electrolyte from Volume Flow Rate equation looks like with Values.

Here is how the Specific Heat of Electrolyte from Volume Flow Rate equation looks like with Units.

Here is how the Specific Heat of Electrolyte from Volume Flow Rate equation looks like.

4.18 = \frac{1000^{2} \cdot 0.012}{997 \cdot 47990.86 \cdot (368.15 - 308.15)}

4.18kJ/kg*K = \frac{{1000A}^{2} \cdot 0.012Ω}{997kg/m³ \cdot 47990.86mm³/s \cdot (368.15K - 308.15K)}

4.18 = \frac{1000^{2} \cdot 0.012}{997 \cdot 47990.86 \cdot (368.15 - 308.15)}

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Specific Heat of Electrolyte from Volume Flow Rate Solution

Follow our step by step solution on how to calculate Specific Heat of Electrolyte from Volume Flow Rate?

FIRST Step Consider the formula

c e = \frac{I^{2} \cdot R}{ρ e \cdot q \cdot (θ B - θ o)}

Next Step Substitute values of Variables

∴

c e = \frac{{1000A}^{2} \cdot 0.012Ω}{997kg/m³ \cdot 47990.86mm³/s \cdot (368.15K - 308.15K)}

Next Step Convert Units

∴

c e = \frac{{1000A}^{2} \cdot 0.012Ω}{997kg/m³ \cdot 4.8E-5m³/s \cdot (368.15K - 308.15K)}

Next Step Prepare to Evaluate

∴

c e = \frac{1000^{2} \cdot 0.012}{997 \cdot 4.8E-5 \cdot (368.15 - 308.15)}

Next Step Evaluate

∴

c e = 4180.00022121397J/(kg*K)

Next Step Convert to Output's Unit

∴

c e = 4.18000022121397kJ/kg*K

LAST Step Rounding Answer

∴

c e = 4.18kJ/kg*K

Specific Heat of Electrolyte from Volume Flow Rate Formula Elements

Variables

Specific Heat Capacity of Electrolyte

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.

Symbol: c_e

Measurement: Specific Heat CapacityUnit: kJ/kg*K

Note: Value should be greater than 0.

Formulas to find Specific Heat Capacity of Electrolyte

Electric Current

Electric current is the rate of flow of electric charge through a circuit, measured in amperes.

Symbol: I

Measurement: Electric CurrentUnit: A

Note: Value should be greater than 0.

Formulas to find Electric Current

Resistance of Gap Between Work And Tool

Resistance of Gap Between Work And Tool, often referred to as the "gap" in machining processes, depends on various factors such as the material being machined, the tool material and geometry.

Symbol: R

Measurement: Electric ResistanceUnit: Ω

Note: Value should be greater than 0.

Formulas to find Resistance of Gap Between Work And Tool

Density of Electrolyte

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.

Symbol: ρ_e

Measurement: DensityUnit: kg/m³

Note: Value should be greater than 0.

Formulas to find Density of Electrolyte

Volume Flow Rate

Volume Flow Rate is the volume of fluid that passes per unit of time.

Symbol: q

Measurement: Volumetric Flow RateUnit: mm³/s

Note: Value should be greater than 0.

Formulas to find Volume Flow Rate

Boiling Point of Electrolyte

Boiling Point of Electrolyte is the temperature at which a liquid starts to boil and transforms to vapor.

Symbol: θ_B

Measurement: TemperatureUnit: K

Note: Value should be greater than 0.

Formulas to find Boiling Point of Electrolyte

Ambient Air Temperature

Ambient Air Temperature to the temperature of the air surrounding a particular object or area.

Symbol: θ_o

Measurement: TemperatureUnit: K

Note: Value should be greater than 0.

Formulas to find Ambient Air Temperature

Other Formulas to find Specific Heat Capacity of Electrolyte

Go Specific Heat of Electrolyte

c e = \frac{H e}{q \cdot ρ e \cdot (θ B - θ o)}

Other formulas in Heat in Electrolyte category

Go Heat Absorbed by Electrolyte

H e = q \cdot ρ e \cdot c e \cdot (θ B - θ o)

Go Flow Rate of Electrolyte from Heat Absorbed Electrolyte

q = \frac{H e}{ρ e \cdot c e \cdot (θ B - θ o)}

How to Evaluate Specific Heat of Electrolyte from Volume Flow Rate?

Specific Heat of Electrolyte from Volume Flow Rate evaluator uses Specific Heat Capacity of Electrolyte = (Electric Current^2*Resistance of Gap Between Work And Tool)/(Density of Electrolyte*Volume Flow Rate*(Boiling Point of Electrolyte-Ambient Air Temperature)) to evaluate the Specific Heat Capacity of Electrolyte, Specific heat of electrolyte from volume flow rate formula is defined as the heat required to raise the temperature of unit mass electrolyte by unit. Specific Heat Capacity of Electrolyte is denoted by c_e symbol.

How to evaluate Specific Heat of Electrolyte from Volume Flow Rate using this online evaluator? To use this online evaluator for Specific Heat of Electrolyte from Volume Flow Rate, enter Electric Current (I), Resistance of Gap Between Work And Tool (R), Density of Electrolyte (ρ_e), Volume Flow Rate (q), Boiling Point of Electrolyte (θ_B) & Ambient Air Temperature (θ_o) and hit the calculate button.

FAQs on Specific Heat of Electrolyte from Volume Flow Rate

What is the formula to find Specific Heat of Electrolyte from Volume Flow Rate?

The formula of Specific Heat of Electrolyte from Volume Flow Rate is expressed as Specific Heat Capacity of Electrolyte = (Electric Current^2*Resistance of Gap Between Work And Tool)/(Density of Electrolyte*Volume Flow Rate*(Boiling Point of Electrolyte-Ambient Air Temperature)). Here is an example- 4.187929 = (1000^2*0.012)/(997*4.799086E-05*(368.15-308.15)).

How to calculate Specific Heat of Electrolyte from Volume Flow Rate?

With Electric Current (I), Resistance of Gap Between Work And Tool (R), Density of Electrolyte (ρ_e), Volume Flow Rate (q), Boiling Point of Electrolyte (θ_B) & Ambient Air Temperature (θ_o) we can find Specific Heat of Electrolyte from Volume Flow Rate using the formula - Specific Heat Capacity of Electrolyte = (Electric Current^2*Resistance of Gap Between Work And Tool)/(Density of Electrolyte*Volume Flow Rate*(Boiling Point of Electrolyte-Ambient Air Temperature)).

What are the other ways to Calculate Specific Heat Capacity of Electrolyte?

Here are the different ways to Calculate Specific Heat Capacity of Electrolyte-

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

Can the Specific Heat of Electrolyte from Volume Flow Rate be negative?

No, the Specific Heat of Electrolyte from Volume Flow Rate, measured in Specific Heat Capacity cannot be negative.

Which unit is used to measure Specific Heat of Electrolyte from Volume Flow Rate?

Specific Heat of Electrolyte from Volume Flow Rate is usually measured using the Kilojoule per Kilogram per K[kJ/kg*K] for Specific Heat Capacity. Joule per Kilogram per K[kJ/kg*K], Joule per Kilogram per Celcius[kJ/kg*K], Kilojoule per Kilogram per Celcius[kJ/kg*K] are the few other units in which Specific Heat of Electrolyte from Volume Flow Rate can be measured.

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Specific Heat of Electrolyte from Volume Flow Rate Formula

​GoSpecific Heat of Electrolyte Formula

Specific Heat of Electrolyte from Volume Flow Rate Example

Specific Heat of Electrolyte from Volume Flow Rate Solution

Specific Heat of Electrolyte from Volume Flow Rate Formula Elements

Other Formulas to find Specific Heat Capacity of Electrolyte

Other formulas in Heat in Electrolyte category

How to Evaluate Specific Heat of Electrolyte from Volume Flow Rate?

FAQs on Specific Heat of Electrolyte from Volume Flow Rate

Variable Name

GoSpecific Heat of Electrolyte Formula