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Dynamic Viscosity of Fluids in Flow Formula

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The Dynamic Viscosity refers to the internal resistance of a fluid to flow when a force is applied. Check FAQs

μ = (\frac{t sec \cdot A \cdot γ f \cdot D pipe}{32 \cdot A R \cdot L p \cdot \ln (\frac{h 1}{h 2})})

μ - Dynamic Viscosity?t_sec - Time in Seconds?A - Cross Sectional Area of Pipe?γ_f - Specific Weight of Liquid?D_pipe - Diameter of Pipe?A_R - Average Reservoir Area?L_p - Length of Pipe?h₁ - Height of Column 1?h₂ - Height of Column 2?

Dynamic Viscosity of Fluids in Flow Example

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Here is how the Dynamic Viscosity of Fluids in Flow equation looks like with Values.

Here is how the Dynamic Viscosity of Fluids in Flow equation looks like with Units.

Here is how the Dynamic Viscosity of Fluids in Flow equation looks like.

10.2064 = (\frac{110 \cdot 0.262 \cdot 9.81 \cdot 1.01}{32 \cdot 10 \cdot 0.1 \cdot \ln (\frac{12.01}{5.01})})

10.2064P = (\frac{110s \cdot 0.262m² \cdot 9.81kN/m³ \cdot 1.01m}{32 \cdot 10m² \cdot 0.1m \cdot \ln (\frac{12.01cm}{5.01cm})})

10.2064 = (\frac{110 \cdot 0.262 \cdot 9.81 \cdot 1.01}{32 \cdot 10 \cdot 0.1 \cdot \ln (\frac{12.01}{5.01})})

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Dynamic Viscosity of Fluids in Flow Solution

Follow our step by step solution on how to calculate Dynamic Viscosity of Fluids in Flow?

FIRST Step Consider the formula

μ = (\frac{t sec \cdot A \cdot γ f \cdot D pipe}{32 \cdot A R \cdot L p \cdot \ln (\frac{h 1}{h 2})})

Next Step Substitute values of Variables

∴

μ = (\frac{110s \cdot 0.262m² \cdot 9.81kN/m³ \cdot 1.01m}{32 \cdot 10m² \cdot 0.1m \cdot \ln (\frac{12.01cm}{5.01cm})})

Next Step Convert Units

∴

μ = (\frac{110s \cdot 0.262m² \cdot 9.81kN/m³ \cdot 101cm}{32 \cdot 10m² \cdot 10cm \cdot \ln (\frac{12.01cm}{5.01cm})})

Next Step Prepare to Evaluate

∴

μ = (\frac{110 \cdot 0.262 \cdot 9.81 \cdot 101}{32 \cdot 10 \cdot 10 \cdot \ln (\frac{12.01}{5.01})})

Next Step Evaluate

∴

μ = 1.02063874923733Pa*s

Next Step Convert to Output's Unit

∴

μ = 10.2063874923733P

LAST Step Rounding Answer

∴

μ = 10.2064P

Dynamic Viscosity of Fluids in Flow Formula Elements

Variables

Functions

Dynamic Viscosity

The Dynamic Viscosity refers to the internal resistance of a fluid to flow when a force is applied.

Symbol: μ

Measurement: Dynamic ViscosityUnit: P

Note: Value should be greater than 0.

Formulas to find Dynamic Viscosity

Time in Seconds

The Time in Seconds refers to the ongoing and continuous sequence of events that occur in succession, from the past through the present and into the future.

Symbol: t_sec

Measurement: TimeUnit: s

Note: Value should be greater than 0.

Formulas to find Time in Seconds

Cross Sectional Area of Pipe

The Cross Sectional Area of Pipe refers to the area of the pipe through which the given liquid is flowing.

Symbol: A

Measurement: AreaUnit: m²

Note: Value can be positive or negative.

Formulas to find Cross Sectional Area of Pipe

Specific Weight of Liquid

The Specific Weight of Liquid refers to the weight per unit volume of that substance.

Symbol: γ_f

Measurement: Specific WeightUnit: kN/m³

Note: Value should be greater than 0.

Formulas to find Specific Weight of Liquid

Diameter of Pipe

The Diameter of Pipe refers to the diameter of the pipe in which the liquid is flowing.

Symbol: D_pipe

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Diameter of Pipe

Average Reservoir Area

The Average Reservoir Area refers to the month is defined as the total area of the reservoir created using a dam to store fresh water.

Symbol: A_R

Measurement: AreaUnit: m²

Note: Value should be greater than 0.

Formulas to find Average Reservoir Area

Length of Pipe

The Length of Pipe refers to total length from one end to another in which the liquid is flowing.

Symbol: L_p

Measurement: LengthUnit: m

Note: Value can be positive or negative.

Formulas to find Length of Pipe

Height of Column 1

The Height of Column 1 refers to the length of the column1 measured from bottom to Top.

Symbol: h₁

Measurement: LengthUnit: cm

Note: Value should be greater than 0.

Formulas to find Height of Column 1

Height of Column 2

The Height of Column 2 refers to the length of the column 2 measured from bottom to Top.

Symbol: h₂

Measurement: LengthUnit: cm

Note: Value should be greater than 0.

Formulas to find Height of Column 2

The natural logarithm, also known as the logarithm to the base e, is the inverse function of the natural exponential function.

Syntax: ln(Number)

Other formulas in Capillary Tube Viscometer category

Go Cross-Sectional Area of Tube using Dynamic Viscosity

A = \frac{μ}{\frac{t sec \cdot γ f \cdot D pipe}{32 \cdot A R \cdot L p \cdot \ln (\frac{h 1}{h 2})}}

Go Diameter of Pipe using Dynamic Viscosity with Time

D pipe = \sqrt{\frac{μ}{\frac{t sec \cdot γ f \cdot A}{32 \cdot A R \cdot L p \cdot \ln (\frac{h 1}{h 2})}}}

How to Evaluate Dynamic Viscosity of Fluids in Flow?

Dynamic Viscosity of Fluids in Flow evaluator uses Dynamic Viscosity = ((Time in Seconds*Cross Sectional Area of Pipe*Specific Weight of Liquid*Diameter of Pipe)/(32*Average Reservoir Area*Length of Pipe*ln(Height of Column 1/Height of Column 2))) to evaluate the Dynamic Viscosity, The Dynamic Viscosity of Fluids in Flow formula is defined as the resistance due to property of liquid resisting the motion of object in fluid. Dynamic Viscosity is denoted by μ symbol.

How to evaluate Dynamic Viscosity of Fluids in Flow using this online evaluator? To use this online evaluator for Dynamic Viscosity of Fluids in Flow, enter Time in Seconds (t_sec), Cross Sectional Area of Pipe (A), Specific Weight of Liquid (γ_f), Diameter of Pipe (D_pipe), Average Reservoir Area (A_R), Length of Pipe (L_p), Height of Column 1 (h₁) & Height of Column 2 (h₂) and hit the calculate button.

FAQs on Dynamic Viscosity of Fluids in Flow

What is the formula to find Dynamic Viscosity of Fluids in Flow?

The formula of Dynamic Viscosity of Fluids in Flow is expressed as Dynamic Viscosity = ((Time in Seconds*Cross Sectional Area of Pipe*Specific Weight of Liquid*Diameter of Pipe)/(32*Average Reservoir Area*Length of Pipe*ln(Height of Column 1/Height of Column 2))). Here is an example- 779.1135 = ((110*0.262*9810*1.01)/(32*10*0.1*ln(0.1201/0.0501))).

How to calculate Dynamic Viscosity of Fluids in Flow?

With Time in Seconds (t_sec), Cross Sectional Area of Pipe (A), Specific Weight of Liquid (γ_f), Diameter of Pipe (D_pipe), Average Reservoir Area (A_R), Length of Pipe (L_p), Height of Column 1 (h₁) & Height of Column 2 (h₂) we can find Dynamic Viscosity of Fluids in Flow using the formula - Dynamic Viscosity = ((Time in Seconds*Cross Sectional Area of Pipe*Specific Weight of Liquid*Diameter of Pipe)/(32*Average Reservoir Area*Length of Pipe*ln(Height of Column 1/Height of Column 2))). This formula also uses Natural Logarithm (ln) function(s).

Can the Dynamic Viscosity of Fluids in Flow be negative?

No, the Dynamic Viscosity of Fluids in Flow, measured in Dynamic Viscosity cannot be negative.

Which unit is used to measure Dynamic Viscosity of Fluids in Flow?

Dynamic Viscosity of Fluids in Flow is usually measured using the Poise[P] for Dynamic Viscosity. Pascal Second[P], Newton Second per Square Meter[P], Millinewton Second per Square Meter[P] are the few other units in which Dynamic Viscosity of Fluids in Flow can be measured.

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Dynamic Viscosity of Fluids in Flow Formula

Dynamic Viscosity of Fluids in Flow Example

Dynamic Viscosity of Fluids in Flow Solution

Dynamic Viscosity of Fluids in Flow Formula Elements

Other formulas in Capillary Tube Viscometer category

How to Evaluate Dynamic Viscosity of Fluids in Flow?

FAQs on Dynamic Viscosity of Fluids in Flow

Variable Name