Settling Velocity given Drag Force as per Stokes Law Solution

STEP 0: Pre-Calculation Summary
Formula Used
Settling Velocity of Particles = Drag Force/(3*pi*Dynamic Viscosity*Diameter of a Spherical Particle)
vs = FD/(3*pi*μviscosity*d)
This formula uses 1 Constants, 4 Variables
Constants Used
pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288
Variables Used
Settling Velocity of Particles - (Measured in Meter per Second) - Settling Velocity of particles refers to the rate at which a particle sinks through a fluid under the influence of gravity.
Drag Force - (Measured in Newton) - The Drag Force refers to the resisting force experienced by an particle moving through a fluid.
Dynamic Viscosity - (Measured in Pascal Second) - The Dynamic Viscosity refers to the property of a fluid that quantifies its internal resistance to flow when subjected to an external force or shear stress.
Diameter of a Spherical Particle - (Measured in Meter) - The Diameter of a Spherical Particle is the distance across the sphere, passing through its center.
STEP 1: Convert Input(s) to Base Unit
Drag Force: 0.004 Newton --> 0.004 Newton No Conversion Required
Dynamic Viscosity: 10.2 Poise --> 1.02 Pascal Second (Check conversion ​here)
Diameter of a Spherical Particle: 0.0013 Meter --> 0.0013 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
vs = FD/(3*pi*μviscosity*d) --> 0.004/(3*pi*1.02*0.0013)
Evaluating ... ...
vs = 0.32007027268355
STEP 3: Convert Result to Output's Unit
0.32007027268355 Meter per Second --> No Conversion Required
FINAL ANSWER
0.32007027268355 0.32007 Meter per Second <-- Settling Velocity of Particles
(Calculation completed in 00.082 seconds)

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Created by Ishita Goyal
Meerut Institute of Engineering and Technology (MIET), Meerut
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Birsa Institute of Technology (BIT), Sindri
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Settling Velocity Calculators

Settling Velocity
​ LaTeX ​ Go Settling Velocity of Particles = sqrt((4*[g]*(Mass Density of Particles-Mass Density of Fluid)*Diameter of a Spherical Particle)/(3*Drag Coefficient*Mass Density of Fluid))
Settling Velocity with respect to Specific Gravity of Particle
​ LaTeX ​ Go Settling Velocity of Particles = sqrt((4*[g]*(Specific Gravity of Spherical Particle-1)*Diameter of a Spherical Particle)/(3*Drag Coefficient))
Settling Velocity given Frictional Drag
​ LaTeX ​ Go Settling Velocity of Particles = sqrt((2*Drag Force)/(Projected Area of A Particle*Drag Coefficient*Mass Density of Fluid))
Settling Velocity given Particle Reynold's Number
​ LaTeX ​ Go Settling Velocity of Particles = (Dynamic Viscosity*Reynold Number)/(Mass Density of Fluid*Diameter of a Spherical Particle)

Settling Velocity given Drag Force as per Stokes Law Formula

​LaTeX ​Go
Settling Velocity of Particles = Drag Force/(3*pi*Dynamic Viscosity*Diameter of a Spherical Particle)
vs = FD/(3*pi*μviscosity*d)

What is Stokes Law?

Stokes Law describes the relationship between the frictional force of a sphere moving in a liquid and other quantities such as particle radius and velocity of the particle.

How to Calculate Settling Velocity given Drag Force as per Stokes Law?

Settling Velocity given Drag Force as per Stokes Law calculator uses Settling Velocity of Particles = Drag Force/(3*pi*Dynamic Viscosity*Diameter of a Spherical Particle) to calculate the Settling Velocity of Particles, Settling Velocity given Drag Force as per Stokes Law formula is defined as the speed at which a particle falls through a fluid under the influence of gravity. Settling Velocity of Particles is denoted by vs symbol.

How to calculate Settling Velocity given Drag Force as per Stokes Law using this online calculator? To use this online calculator for Settling Velocity given Drag Force as per Stokes Law, enter Drag Force (FD), Dynamic Viscosity viscosity) & Diameter of a Spherical Particle (d) and hit the calculate button. Here is how the Settling Velocity given Drag Force as per Stokes Law calculation can be explained with given input values -> 320.0703 = 0.004/(3*pi*1.02*0.0013).

FAQ

What is Settling Velocity given Drag Force as per Stokes Law?
Settling Velocity given Drag Force as per Stokes Law formula is defined as the speed at which a particle falls through a fluid under the influence of gravity and is represented as vs = FD/(3*pi*μviscosity*d) or Settling Velocity of Particles = Drag Force/(3*pi*Dynamic Viscosity*Diameter of a Spherical Particle). The Drag Force refers to the resisting force experienced by an particle moving through a fluid, The Dynamic Viscosity refers to the property of a fluid that quantifies its internal resistance to flow when subjected to an external force or shear stress & The Diameter of a Spherical Particle is the distance across the sphere, passing through its center.
How to calculate Settling Velocity given Drag Force as per Stokes Law?
Settling Velocity given Drag Force as per Stokes Law formula is defined as the speed at which a particle falls through a fluid under the influence of gravity is calculated using Settling Velocity of Particles = Drag Force/(3*pi*Dynamic Viscosity*Diameter of a Spherical Particle). To calculate Settling Velocity given Drag Force as per Stokes Law, you need Drag Force (FD), Dynamic Viscosity viscosity) & Diameter of a Spherical Particle (d). With our tool, you need to enter the respective value for Drag Force, Dynamic Viscosity & Diameter of a Spherical Particle and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Settling Velocity of Particles?
In this formula, Settling Velocity of Particles uses Drag Force, Dynamic Viscosity & Diameter of a Spherical Particle. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Settling Velocity of Particles = sqrt((2*Drag Force)/(Projected Area of A Particle*Drag Coefficient*Mass Density of Fluid))
  • Settling Velocity of Particles = sqrt((4*[g]*(Mass Density of Particles-Mass Density of Fluid)*Diameter of a Spherical Particle)/(3*Drag Coefficient*Mass Density of Fluid))
  • Settling Velocity of Particles = sqrt((4*[g]*(Specific Gravity of Spherical Particle-1)*Diameter of a Spherical Particle)/(3*Drag Coefficient))
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