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Dynamic Viscosity given Velocity of Flow in Oil Tank Formula

GoDynamic Viscosity given Rate of Flow Formula

GoDynamic Viscosity for Pressure Reduction over Length of Piston 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 = 0.5 \cdot dp|dr \cdot \frac{R \cdot R - C H \cdot R}{u Oiltank + (v piston \cdot \frac{R}{C H})}

μ - Dynamic Viscosity?dp|dr - Pressure Gradient?R - Horizontal Distance?C_H - Hydraulic Clearance?u_Oiltank - Fluid Velocity in Oil Tank?v_piston - Velocity of Piston?

Dynamic Viscosity given Velocity of Flow in Oil Tank Example

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Here is how the Dynamic Viscosity given Velocity of Flow in Oil Tank equation looks like with Values.

Here is how the Dynamic Viscosity given Velocity of Flow in Oil Tank equation looks like with Units.

Here is how the Dynamic Viscosity given Velocity of Flow in Oil Tank equation looks like.

10.8076 = 0.5 \cdot 60 \cdot \frac{0.7 \cdot 0.7 - 50 \cdot 0.7}{12 + (0.045 \cdot \frac{0.7}{50})}

10.8076P = 0.5 \cdot 60N/m³ \cdot \frac{0.7m \cdot 0.7m - 50mm \cdot 0.7m}{12m/s + (0.045m/s \cdot \frac{0.7m}{50mm})}

10.8076 = 0.5 \cdot 60 \cdot \frac{0.7 \cdot 0.7 - 50 \cdot 0.7}{12 + (0.045 \cdot \frac{0.7}{50})}

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Dynamic Viscosity given Velocity of Flow in Oil Tank Solution

Follow our step by step solution on how to calculate Dynamic Viscosity given Velocity of Flow in Oil Tank?

FIRST Step Consider the formula

μ = 0.5 \cdot dp|dr \cdot \frac{R \cdot R - C H \cdot R}{u Oiltank + (v piston \cdot \frac{R}{C H})}

Next Step Substitute values of Variables

∴

μ = 0.5 \cdot 60N/m³ \cdot \frac{0.7m \cdot 0.7m - 50mm \cdot 0.7m}{12m/s + (0.045m/s \cdot \frac{0.7m}{50mm})}

Next Step Convert Units

∴

μ = 0.5 \cdot 60N/m³ \cdot \frac{0.7m \cdot 0.7m - 0.05m \cdot 0.7m}{12m/s + (0.045m/s \cdot \frac{0.7m}{0.05m})}

Next Step Prepare to Evaluate

∴

μ = 0.5 \cdot 60 \cdot \frac{0.7 \cdot 0.7 - 0.05 \cdot 0.7}{12 + (0.045 \cdot \frac{0.7}{0.05})}

Next Step Evaluate

∴

μ = 1.08076009501188Pa*s

Next Step Convert to Output's Unit

∴

μ = 10.8076009501188P

LAST Step Rounding Answer

∴

μ = 10.8076P

Dynamic Viscosity given Velocity of Flow in Oil Tank Formula Elements

Variables

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

Pressure Gradient

Pressure Gradient is the change in pressure with respect to radial distance of element.

Symbol: dp|dr

Measurement: Pressure GradientUnit: N/m³

Note: Value can be positive or negative.

Formulas to find Pressure Gradient

Horizontal Distance

Horizontal Distance denotes the instantaneous horizontal distance cover by an object in a projectile motion.

Symbol: R

Measurement: LengthUnit: m

Note: Value can be positive or negative.

Formulas to find Horizontal Distance

Hydraulic Clearance

Hydraulic Clearance is the gap or space between two surfaces adjacent to each other.

Symbol: C_H

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Hydraulic Clearance

Fluid Velocity in Oil Tank

Fluid Velocity in Oil Tank is the volume of fluid flowing in the given vessel per unit cross sectional area.

Symbol: u_Oiltank

Measurement: SpeedUnit: m/s

Note: Value can be positive or negative.

Formulas to find Fluid Velocity in Oil Tank

Velocity of Piston

Velocity of piston in reciprocating pump is defined as the product of sin of angular velocity and time, radius of crank and angular velocity.

Symbol: v_piston

Measurement: SpeedUnit: m/s

Note: Value can be positive or negative.

Formulas to find Velocity of Piston

Other Formulas to find Dynamic Viscosity

Go Dynamic Viscosity given Rate of Flow

μ = \frac{dp|dr \cdot \frac{{C R}^{3}}{12}}{(\frac{Q}{π} \cdot D) + v piston \cdot 0.5 \cdot C R}

Go Dynamic Viscosity for Pressure Reduction over Length of Piston

μ = \frac{ΔPf}{(6 \cdot v piston \cdot \frac{L P}{{C R}^{3}}) \cdot (0.5 \cdot D + C R)}

Go Dynamic Viscosity for Shear Force Resisting Motion of Piston

μ = \frac{Fs}{π \cdot L P \cdot v piston \cdot (1.5 \cdot {(\frac{D}{C R})}^{2} + 4 \cdot (\frac{D}{C R}))}

How to Evaluate Dynamic Viscosity given Velocity of Flow in Oil Tank?

Dynamic Viscosity given Velocity of Flow in Oil Tank evaluator uses Dynamic Viscosity = 0.5*Pressure Gradient*(Horizontal Distance*Horizontal Distance-Hydraulic Clearance*Horizontal Distance)/(Fluid Velocity in Oil Tank+(Velocity of Piston*Horizontal Distance/Hydraulic Clearance)) to evaluate the Dynamic Viscosity, The Dynamic Viscosity given Velocity of Flow in Oil Tank is defined as the resistance offered by fluid in flow medium. Dynamic Viscosity is denoted by μ symbol.

How to evaluate Dynamic Viscosity given Velocity of Flow in Oil Tank using this online evaluator? To use this online evaluator for Dynamic Viscosity given Velocity of Flow in Oil Tank, enter Pressure Gradient (dp|dr), Horizontal Distance (R), Hydraulic Clearance (C_H), Fluid Velocity in Oil Tank (u_Oiltank) & Velocity of Piston (v_piston) and hit the calculate button.

FAQs on Dynamic Viscosity given Velocity of Flow in Oil Tank

What is the formula to find Dynamic Viscosity given Velocity of Flow in Oil Tank?

The formula of Dynamic Viscosity given Velocity of Flow in Oil Tank is expressed as Dynamic Viscosity = 0.5*Pressure Gradient*(Horizontal Distance*Horizontal Distance-Hydraulic Clearance*Horizontal Distance)/(Fluid Velocity in Oil Tank+(Velocity of Piston*Horizontal Distance/Hydraulic Clearance)). Here is an example- 4.540465 = 0.5*60*(0.7*0.7-0.05*0.7)/(12+(0.045*0.7/0.05)).

How to calculate Dynamic Viscosity given Velocity of Flow in Oil Tank?

With Pressure Gradient (dp|dr), Horizontal Distance (R), Hydraulic Clearance (C_H), Fluid Velocity in Oil Tank (u_Oiltank) & Velocity of Piston (v_piston) we can find Dynamic Viscosity given Velocity of Flow in Oil Tank using the formula - Dynamic Viscosity = 0.5*Pressure Gradient*(Horizontal Distance*Horizontal Distance-Hydraulic Clearance*Horizontal Distance)/(Fluid Velocity in Oil Tank+(Velocity of Piston*Horizontal Distance/Hydraulic Clearance)).

What are the other ways to Calculate Dynamic Viscosity?

Here are the different ways to Calculate Dynamic Viscosity-

Dynamic Viscosity=(Pressure Gradient*(Radial Clearance^3)/12)/((Discharge in Laminar Flow/pi*Diameter of Piston)+Velocity of Piston*0.5*Radial Clearance)
Dynamic Viscosity=Pressure Drop due to Friction/((6*Velocity of Piston*Piston Length/(Radial Clearance^3))*(0.5*Diameter of Piston+Radial Clearance))
Dynamic Viscosity=Shear Force/(pi*Piston Length*Velocity of Piston*(1.5*(Diameter of Piston/Radial Clearance)^2+4*(Diameter of Piston/Radial Clearance)))

Can the Dynamic Viscosity given Velocity of Flow in Oil Tank be negative?

No, the Dynamic Viscosity given Velocity of Flow in Oil Tank, measured in Dynamic Viscosity cannot be negative.

Which unit is used to measure Dynamic Viscosity given Velocity of Flow in Oil Tank?

Dynamic Viscosity given Velocity of Flow in Oil Tank 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 given Velocity of Flow in Oil Tank can be measured.

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Dynamic Viscosity given Velocity of Flow in Oil Tank Formula

​GoDynamic Viscosity given Rate of Flow Formula

​GoDynamic Viscosity for Pressure Reduction over Length of Piston Formula

Dynamic Viscosity given Velocity of Flow in Oil Tank Example

Dynamic Viscosity given Velocity of Flow in Oil Tank Solution

Dynamic Viscosity given Velocity of Flow in Oil Tank Formula Elements

Other Formulas to find Dynamic Viscosity

How to Evaluate Dynamic Viscosity given Velocity of Flow in Oil Tank?

FAQs on Dynamic Viscosity given Velocity of Flow in Oil Tank

Variable Name

GoDynamic Viscosity given Rate of Flow Formula

GoDynamic Viscosity for Pressure Reduction over Length of Piston Formula