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Mass Flow Rate given Diffusion Current Formula

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Mass Flow Rate for Ilkovic Equation is defined as the mass of liquid mercury passing per unit time. Check FAQs

m r = {(\frac{I d}{607 \cdot (n) \cdot {(D)}^{\frac{1}{2}} \cdot {(t)}^{\frac{1}{6}} \cdot (c)})}^{\frac{3}{2}}

m_r - Mass Flow Rate for Ilkovic Equation?I_d - Diffusion Current for Ilkovic Equation?n - No. of Electrons for Ilkovic Equation?D - Diffusion Coefficient for Ilkovic Equation?t - Time for Dropping Mercury?c - Concentration for Ilkovic Equation?

Mass Flow Rate given Diffusion Current Example

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Here is how the Mass Flow Rate given Diffusion Current equation looks like with Values.

Here is how the Mass Flow Rate given Diffusion Current equation looks like with Units.

Here is how the Mass Flow Rate given Diffusion Current equation looks like.

4.3E-9 = {(\frac{32}{607 \cdot (2) \cdot {(6.9E-6)}^{\frac{1}{2}} \cdot {(4)}^{\frac{1}{6}} \cdot (3)})}^{\frac{3}{2}}

4.3E-9mg/s = {(\frac{32µA}{607 \cdot (2) \cdot {(6.9E-6cm²/s)}^{\frac{1}{2}} \cdot {(4s)}^{\frac{1}{6}} \cdot (3mmol/mm³)})}^{\frac{3}{2}}

4.3E-9 = {(\frac{32}{607 \cdot (2) \cdot {(6.9E-6)}^{\frac{1}{2}} \cdot {(4)}^{\frac{1}{6}} \cdot (3)})}^{\frac{3}{2}}

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Mass Flow Rate given Diffusion Current Solution

Follow our step by step solution on how to calculate Mass Flow Rate given Diffusion Current?

FIRST Step Consider the formula

m r = {(\frac{I d}{607 \cdot (n) \cdot {(D)}^{\frac{1}{2}} \cdot {(t)}^{\frac{1}{6}} \cdot (c)})}^{\frac{3}{2}}

Next Step Substitute values of Variables

∴

m r = {(\frac{32µA}{607 \cdot (2) \cdot {(6.9E-6cm²/s)}^{\frac{1}{2}} \cdot {(4s)}^{\frac{1}{6}} \cdot (3mmol/mm³)})}^{\frac{3}{2}}

Next Step Convert Units

∴

m r = {(\frac{3.2E-5A}{607 \cdot (2) \cdot {(6.9E-10m²/s)}^{\frac{1}{2}} \cdot {(4s)}^{\frac{1}{6}} \cdot (3E+6mol/m³)})}^{\frac{3}{2}}

Next Step Prepare to Evaluate

∴

m r = {(\frac{3.2E-5}{607 \cdot (2) \cdot {(6.9E-10)}^{\frac{1}{2}} \cdot {(4)}^{\frac{1}{6}} \cdot (3E+6)})}^{\frac{3}{2}}

Next Step Evaluate

∴

m r = 4.32576815739303E-15kg/s

Next Step Convert to Output's Unit

∴

m r = 4.32576815739303E-09mg/s

LAST Step Rounding Answer

∴

m r = 4.3E-9mg/s

Mass Flow Rate given Diffusion Current Formula Elements

Variables

Mass Flow Rate for Ilkovic Equation

Mass Flow Rate for Ilkovic Equation is defined as the mass of liquid mercury passing per unit time.

Symbol: m_r

Measurement: Mass Flow RateUnit: mg/s

Note: Value can be positive or negative.

Formulas to find Mass Flow Rate for Ilkovic Equation

Diffusion Current for Ilkovic Equation

Diffusion Current for Ilkovic Equation is defined as the actual diffusion of electroreducible ion from the bulk of the sample to the surface of the mercury droplet due to concentration gradient.

Symbol: I_d

Measurement: Electric CurrentUnit: µA

Note: Value can be positive or negative.

Formulas to find Diffusion Current for Ilkovic Equation

No. of Electrons for Ilkovic Equation

No. of Electrons for Ilkovic Equation is defined as the number of electrons exchanged in the electrode reaction.

Symbol: n

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find No. of Electrons for Ilkovic Equation

Diffusion Coefficient for Ilkovic Equation

Diffusion Coefficient for Ilkovic Equation is defined as the diffusion coefficient of the polarizer in the medium.

Symbol: D

Measurement: DiffusivityUnit: cm²/s

Note: Value can be positive or negative.

Formulas to find Diffusion Coefficient for Ilkovic Equation

Time for Dropping Mercury

Time for Dropping Mercury is defined as the lifetime of the drop of mercury in the electrode.

Symbol: t

Measurement: TimeUnit: s

Note: Value can be positive or negative.

Formulas to find Time for Dropping Mercury

Concentration for Ilkovic Equation

Concentration for Ilkovic Equation is defined as the concentration of the depolariser in the dropping mercury electrode.

Symbol: c

Measurement: Molar ConcentrationUnit: mmol/mm³

Note: Value can be positive or negative.

Formulas to find Concentration for Ilkovic Equation

Other formulas in Polarography category

Go Diffusion Current

I d = 607 \cdot (n) \cdot {(D)}^{\frac{1}{2}} \cdot {(m r)}^{\frac{2}{3}} \cdot {(t)}^{\frac{1}{6}} \cdot (c)

Go Diffusion Coefficient given Diffusion Current

D = {(\frac{I d}{607 \cdot (n) \cdot {(m r)}^{\frac{2}{3}} \cdot {(t)}^{\frac{1}{6}} \cdot (c)})}^{2}

Go No of Electrons given Diffusion Current

n = \frac{I d}{607 \cdot {(D)}^{\frac{1}{2}} \cdot {(m r)}^{\frac{2}{3}} \cdot {(t)}^{\frac{1}{6}} \cdot (c)}

Go Drop Lifetime given Diffusion Current

t = {(\frac{I d}{607 \cdot (n) \cdot {(m r)}^{\frac{2}{3}} \cdot {(D)}^{\frac{1}{2}} \cdot (c)})}^{6}

How to Evaluate Mass Flow Rate given Diffusion Current?

Mass Flow Rate given Diffusion Current evaluator uses Mass Flow Rate for Ilkovic Equation = (Diffusion Current for Ilkovic Equation/(607*(No. of Electrons for Ilkovic Equation)*(Diffusion Coefficient for Ilkovic Equation)^(1/2)*(Time for Dropping Mercury)^(1/6)*(Concentration for Ilkovic Equation)))^(3/2) to evaluate the Mass Flow Rate for Ilkovic Equation, The Mass Flow Rate given Diffusion Current formula is defined as the mass of mercury passing from the orifice of the capillary per unit time. Mass Flow Rate for Ilkovic Equation is denoted by m_r symbol.

How to evaluate Mass Flow Rate given Diffusion Current using this online evaluator? To use this online evaluator for Mass Flow Rate given Diffusion Current, enter Diffusion Current for Ilkovic Equation (I_d), No. of Electrons for Ilkovic Equation (n), Diffusion Coefficient for Ilkovic Equation (D), Time for Dropping Mercury (t) & Concentration for Ilkovic Equation (c) and hit the calculate button.

FAQs on Mass Flow Rate given Diffusion Current

What is the formula to find Mass Flow Rate given Diffusion Current?

The formula of Mass Flow Rate given Diffusion Current is expressed as Mass Flow Rate for Ilkovic Equation = (Diffusion Current for Ilkovic Equation/(607*(No. of Electrons for Ilkovic Equation)*(Diffusion Coefficient for Ilkovic Equation)^(1/2)*(Time for Dropping Mercury)^(1/6)*(Concentration for Ilkovic Equation)))^(3/2). Here is an example- 0.004326 = (3.2E-05/(607*(2)*(6.9E-10)^(1/2)*(4)^(1/6)*(3000000)))^(3/2).

How to calculate Mass Flow Rate given Diffusion Current?

With Diffusion Current for Ilkovic Equation (I_d), No. of Electrons for Ilkovic Equation (n), Diffusion Coefficient for Ilkovic Equation (D), Time for Dropping Mercury (t) & Concentration for Ilkovic Equation (c) we can find Mass Flow Rate given Diffusion Current using the formula - Mass Flow Rate for Ilkovic Equation = (Diffusion Current for Ilkovic Equation/(607*(No. of Electrons for Ilkovic Equation)*(Diffusion Coefficient for Ilkovic Equation)^(1/2)*(Time for Dropping Mercury)^(1/6)*(Concentration for Ilkovic Equation)))^(3/2).

Can the Mass Flow Rate given Diffusion Current be negative?

Yes, the Mass Flow Rate given Diffusion Current, measured in Mass Flow Rate can be negative.

Which unit is used to measure Mass Flow Rate given Diffusion Current?

Mass Flow Rate given Diffusion Current is usually measured using the Milligram per Second[mg/s] for Mass Flow Rate. Kilogram per Second[mg/s], Gram per Second[mg/s], Gram per Hour[mg/s] are the few other units in which Mass Flow Rate given Diffusion Current can be measured.

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Mass Flow Rate given Diffusion Current Formula

Mass Flow Rate given Diffusion Current Example

Mass Flow Rate given Diffusion Current Solution

Mass Flow Rate given Diffusion Current Formula Elements

Other formulas in Polarography category

How to Evaluate Mass Flow Rate given Diffusion Current?

FAQs on Mass Flow Rate given Diffusion Current

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