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Viscosity of Solution using Collision Rate Formula

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Viscosity of Fluid in Quantum is a measure of its resistance to deformation at a given rate in quantum mechanics. Check FAQs
μ=8[BoltZ]Tn3v
μ - Viscosity of Fluid in Quantum?T - Temperature in terms of Molecular Dynamics?n - Concentration of Equal Size Particle in Solution?v - Number of Collisions per Second?[BoltZ] - Boltzmann constant?

Viscosity of Solution using Collision Rate Example

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Here is how the Viscosity of Solution using Collision Rate equation looks like with Values.

Here is how the Viscosity of Solution using Collision Rate equation looks like with Units.

Here is how the Viscosity of Solution using Collision Rate equation looks like.

1.4E-18Edit=81.4E-2385Edit9Edit320Edit
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HomeIcon Home » Category Chemistry » Category Quantum » Category Molecular Reaction Dynamics » fx Viscosity of Solution using Collision Rate

Viscosity of Solution using Collision Rate Solution

Follow our step by step solution on how to calculate Viscosity of Solution using Collision Rate?

FIRST Step Consider the formula
μ=8[BoltZ]Tn3v
Next Step Substitute values of Variables
μ=8[BoltZ]85K9mmol/cm³3201/s
Next Step Substitute values of Constants
μ=81.4E-23J/K85K9mmol/cm³3201/s
Next Step Convert Units
μ=81.4E-23J/K85K9000mol/m³3201/s
Next Step Prepare to Evaluate
μ=81.4E-23859000320
Next Step Evaluate
μ=1.4082614904E-18Pa*s
Next Step Convert to Output's Unit
μ=1.4082614904E-18N*s/m²
LAST Step Rounding Answer
μ=1.4E-18N*s/m²

Viscosity of Solution using Collision Rate Formula Elements

Variables
Constants
Viscosity of Fluid in Quantum
Viscosity of Fluid in Quantum is a measure of its resistance to deformation at a given rate in quantum mechanics.
Symbol: μ
Measurement: Dynamic ViscosityUnit: N*s/m²
Note: Value can be positive or negative.
Formulas to find Viscosity of Fluid in QuantumOpen Variable
Temperature in terms of Molecular Dynamics
Temperature in terms of Molecular Dynamics is the degree or intensity of heat present in a molecules during collision.
Symbol: T
Measurement: TemperatureUnit: K
Note: Value can be positive or negative.
Formulas to find Temperature in terms of Molecular DynamicsOpen Variable
Concentration of Equal Size Particle in Solution
Concentration of Equal Size Particle in Solution is the molar concentration of equal size particle at any stage during the progress of the reaction.
Symbol: n
Measurement: Molar ConcentrationUnit: mmol/cm³
Note: Value should be greater than 0.
Formulas to find Concentration of Equal Size Particle in SolutionOpen Variable
Number of Collisions per Second
Number of Collisions per Second is rate of collisions between two atomic or molecular species in a given volume, per unit time.
Symbol: v
Measurement: Time InverseUnit: 1/s
Note: Value should be greater than 0.
Formulas to find Number of Collisions per SecondOpen Variable
Boltzmann constant
Boltzmann constant relates the average kinetic energy of particles in a gas with the temperature of the gas and is a fundamental constant in statistical mechanics and thermodynamics.
Symbol: [BoltZ]
Value: 1.38064852E-23 J/K

Other formulas in Molecular Reaction Dynamics category

​Go Number of Bimolecular Collision per Unit Time per Unit Volume
Z=nAnBvbeamA
​Go Number Density for A Molecules using Collision Rate Constant
nA=ZvbeamnBA
​Go Cross Sectional Area using Rate of Molecular Collisions
A=ZvbeamnBnA
​Go Vibrational Frequency given Boltzmann's Constant
vvib=[BoltZ]T[hP]

How to Evaluate Viscosity of Solution using Collision Rate?

Viscosity of Solution using Collision Rate evaluator uses Viscosity of Fluid in Quantum = (8*[BoltZ]*Temperature in terms of Molecular Dynamics*Concentration of Equal Size Particle in Solution)/(3*Number of Collisions per Second) to evaluate the Viscosity of Fluid in Quantum, The Viscosity of Solution using Collision Rate formula is defined as a measure of its resistance to deformation at a given rate using collision frequency of a solution. Viscosity of Fluid in Quantum is denoted by μ symbol.

How to evaluate Viscosity of Solution using Collision Rate using this online evaluator? To use this online evaluator for Viscosity of Solution using Collision Rate, enter Temperature in terms of Molecular Dynamics (T), Concentration of Equal Size Particle in Solution (n) & Number of Collisions per Second (v) and hit the calculate button.

FAQs on Viscosity of Solution using Collision Rate

What is the formula to find Viscosity of Solution using Collision Rate?
The formula of Viscosity of Solution using Collision Rate is expressed as Viscosity of Fluid in Quantum = (8*[BoltZ]*Temperature in terms of Molecular Dynamics*Concentration of Equal Size Particle in Solution)/(3*Number of Collisions per Second). Here is an example- 1.4E-18 = (8*[BoltZ]*85*9000)/(3*20).
How to calculate Viscosity of Solution using Collision Rate?
With Temperature in terms of Molecular Dynamics (T), Concentration of Equal Size Particle in Solution (n) & Number of Collisions per Second (v) we can find Viscosity of Solution using Collision Rate using the formula - Viscosity of Fluid in Quantum = (8*[BoltZ]*Temperature in terms of Molecular Dynamics*Concentration of Equal Size Particle in Solution)/(3*Number of Collisions per Second). This formula also uses Boltzmann constant .
Can the Viscosity of Solution using Collision Rate be negative?
Yes, the Viscosity of Solution using Collision Rate, measured in Dynamic Viscosity can be negative.
Which unit is used to measure Viscosity of Solution using Collision Rate?
Viscosity of Solution using Collision Rate is usually measured using the Newton Second per Square Meter[N*s/m²] for Dynamic Viscosity. Pascal Second[N*s/m²], Millinewton Second per Square Meter[N*s/m²], Dyne Second per Square Centimeter[N*s/m²] are the few other units in which Viscosity of Solution using Collision Rate can be measured.
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