Settling Velocity using Temperature in Fahrenheit Solution

STEP 0: Pre-Calculation Summary
Formula Used
Settling Velocity = 418*(Specific gravity of particle-Specific Gravity of Fluid)*Effective Particle Diameter^2*((Outside Temperature+10)/60)
vs = 418*(G-Gf)*DE^2*((to+10)/60)
This formula uses 5 Variables
Variables Used
Settling Velocity - (Measured in Meter per Second) - Settling velocity is defined as the terminal velocity of a particle in still fluid.
Specific gravity of particle - Specific gravity of particle is the ratio of density of particle to density of standard material.
Specific Gravity of Fluid - Specific Gravity of Fluid is the ratio of the specific weight of a substance to the specific weight of a standard fluid.
Effective Particle Diameter - (Measured in Meter) - The Effective Particle Diameter is the diameter of the particles in a granular sample for which 10 percent of the total grains are smaller and 90 percent larger on a weight basis.
Outside Temperature - (Measured in Fahrenheit) - Outside Temperature is the temperature of air present outside.
STEP 1: Convert Input(s) to Base Unit
Specific gravity of particle: 16 --> No Conversion Required
Specific Gravity of Fluid: 14 --> No Conversion Required
Effective Particle Diameter: 10 Millimeter --> 0.01 Meter (Check conversion here)
Outside Temperature: 273 Kelvin --> 31.7300109934804 Fahrenheit (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
vs = 418*(G-Gf)*DE^2*((to+10)/60) --> 418*(16-14)*0.01^2*((31.7300109934804+10)/60)
Evaluating ... ...
vs = 0.0581438153175827
STEP 3: Convert Result to Output's Unit
0.0581438153175827 Meter per Second --> No Conversion Required
FINAL ANSWER
0.0581438153175827 0.058144 Meter per Second <-- Settling Velocity
(Calculation completed in 00.004 seconds)

Credits

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

Settling Velocity
Go Settling Velocity = sqrt((4*[g]*(Density of Particle-Liquid Density)*Effective Particle Diameter)/(3*Drag Coefficient*Liquid Density))
Settling Velocity with respect to Kinematic Viscosity
Go Settling Velocity = [g]*(Specific Gravity of Material-Specific Gravity of Fluid)*Diameter^2/18*Kinematic Viscosity
Settling Velocity with respect to Dynamic Viscosity
Go Settling Velocity = [g]*(Density of Particle-Liquid Density)*Effective Particle Diameter^2/18*Dynamic Viscosity
Settling Velocity using Temperature in Fahrenheit
Go Settling Velocity = 418*(Specific gravity of particle-Specific Gravity of Fluid)*Effective Particle Diameter^2*((Outside Temperature+10)/60)
Settling Velocity with respect to Specific Gravity of Particle
Go Settling Velocity = sqrt((4*[g]*(Specific Gravity of Material-1)*Diameter)/(3*Drag Coefficient))
Settling Velocity given Celsius for diameter greater than 0.1mm
Go Settling Velocity = 418*(Specific gravity of particle-Specific Gravity of Fluid)*Diameter*(3*Temperature in Fahrenheit+70)/100
Settling Velocity given Fahrenheit for diameter greater than 0.1mm
Go Settling Velocity = 418*(Specific gravity of particle-Specific Gravity of Fluid)*Diameter*(Temperature in Fahrenheit+10)/60
Settling Velocity given degree Celsius
Go Settling Velocity = 418*(Specific gravity of particle-Specific Gravity of Fluid)*Diameter^2*((3*Temperature+70)/100)
Settling Velocity given Frictional Drag
Go Settling Velocity = sqrt(2*Drag Force/(Area*Drag Coefficient*Liquid Density))
Settling Velocity given Specific Gravity of Particle and Viscosity
Go Settling Velocity = [g]*(Specific gravity of particle-1)*Diameter^2/18*Kinematic Viscosity
Settling Velocity given Particle Reynold's Number
Go Settling Velocity = Dynamic Viscosity*Reynolds Number/(Liquid Density*Diameter)
Settling Velocity given Drag Force as per Stokes Law
Go Settling Velocity = Drag Force/3*pi*Dynamic Viscosity*Diameter
Settling Velocity at 10 degree Celsius
Go Settling Velocity = 418*(Specific gravity of particle-Specific Gravity of Fluid)*Diameter^2
Settling Velocity given Displacement Velocity for Fine Particles
Go Settling Velocity = Displacement velocity/sqrt(8/Darcy Friction Factor)
Settling Velocity given Height at Outlet Zone with respect to Settling Velocity
Go Settling Velocity = Falling Speed*Height of Crack/Outer Height
Settling Velocity given Surface Area with respect to Settling Velocity
Go Settling Velocity = Falling Speed*Cross-Sectional Area/Area
Settling Velocity given Ratio of Removal with respect to Settling Velocity
Go Settling Velocity = Falling Speed/Removal Ratio
Surface Loading with respect to Settling Velocity
Go Surface loading rate = 864000*Settling Velocity
Settling Velocity given Displacement Velocity with Settling Velocity
Go Settling Velocity = Displacement velocity/18

Settling Velocity using Temperature in Fahrenheit Formula

Settling Velocity = 418*(Specific gravity of particle-Specific Gravity of Fluid)*Effective Particle Diameter^2*((Outside Temperature+10)/60)
vs = 418*(G-Gf)*DE^2*((to+10)/60)

What is specific gravity ?

Specific gravity, is the ratio of the density of a substance to the density of a given reference material. Specific gravity for liquids is nearly always measured with respect to water at its densest; for gases, the reference is air at room temperature.

How to Calculate Settling Velocity using Temperature in Fahrenheit?

Settling Velocity using Temperature in Fahrenheit calculator uses Settling Velocity = 418*(Specific gravity of particle-Specific Gravity of Fluid)*Effective Particle Diameter^2*((Outside Temperature+10)/60) to calculate the Settling Velocity, The Settling Velocity using Temperature in Fahrenheit is defined as the terminal velocity of a particle in a still fluid. Settling Velocity is denoted by vs symbol.

How to calculate Settling Velocity using Temperature in Fahrenheit using this online calculator? To use this online calculator for Settling Velocity using Temperature in Fahrenheit, enter Specific gravity of particle (G), Specific Gravity of Fluid (Gf), Effective Particle Diameter (DE) & Outside Temperature (to) and hit the calculate button. Here is how the Settling Velocity using Temperature in Fahrenheit calculation can be explained with given input values -> 0.058144 = 418*(16-14)*0.01^2*((273+10)/60).

FAQ

What is Settling Velocity using Temperature in Fahrenheit?
The Settling Velocity using Temperature in Fahrenheit is defined as the terminal velocity of a particle in a still fluid and is represented as vs = 418*(G-Gf)*DE^2*((to+10)/60) or Settling Velocity = 418*(Specific gravity of particle-Specific Gravity of Fluid)*Effective Particle Diameter^2*((Outside Temperature+10)/60). Specific gravity of particle is the ratio of density of particle to density of standard material, Specific Gravity of Fluid is the ratio of the specific weight of a substance to the specific weight of a standard fluid, The Effective Particle Diameter is the diameter of the particles in a granular sample for which 10 percent of the total grains are smaller and 90 percent larger on a weight basis & Outside Temperature is the temperature of air present outside.
How to calculate Settling Velocity using Temperature in Fahrenheit?
The Settling Velocity using Temperature in Fahrenheit is defined as the terminal velocity of a particle in a still fluid is calculated using Settling Velocity = 418*(Specific gravity of particle-Specific Gravity of Fluid)*Effective Particle Diameter^2*((Outside Temperature+10)/60). To calculate Settling Velocity using Temperature in Fahrenheit, you need Specific gravity of particle (G), Specific Gravity of Fluid (Gf), Effective Particle Diameter (DE) & Outside Temperature (to). With our tool, you need to enter the respective value for Specific gravity of particle, Specific Gravity of Fluid, Effective Particle Diameter & Outside Temperature 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?
In this formula, Settling Velocity uses Specific gravity of particle, Specific Gravity of Fluid, Effective Particle Diameter & Outside Temperature. We can use 17 other way(s) to calculate the same, which is/are as follows -
  • Settling Velocity = sqrt(2*Drag Force/(Area*Drag Coefficient*Liquid Density))
  • Settling Velocity = sqrt((4*[g]*(Density of Particle-Liquid Density)*Effective Particle Diameter)/(3*Drag Coefficient*Liquid Density))
  • Settling Velocity = sqrt((4*[g]*(Specific Gravity of Material-1)*Diameter)/(3*Drag Coefficient))
  • Settling Velocity = Dynamic Viscosity*Reynolds Number/(Liquid Density*Diameter)
  • Settling Velocity = Drag Force/3*pi*Dynamic Viscosity*Diameter
  • Settling Velocity = [g]*(Density of Particle-Liquid Density)*Effective Particle Diameter^2/18*Dynamic Viscosity
  • Settling Velocity = [g]*(Specific Gravity of Material-Specific Gravity of Fluid)*Diameter^2/18*Kinematic Viscosity
  • Settling Velocity = [g]*(Specific gravity of particle-1)*Diameter^2/18*Kinematic Viscosity
  • Settling Velocity = 418*(Specific gravity of particle-Specific Gravity of Fluid)*Diameter^2
  • Settling Velocity = 418*(Specific gravity of particle-Specific Gravity of Fluid)*Diameter^2*((3*Temperature+70)/100)
  • Settling Velocity = 418*(Specific gravity of particle-Specific Gravity of Fluid)*Diameter*(Temperature in Fahrenheit+10)/60
  • Settling Velocity = 418*(Specific gravity of particle-Specific Gravity of Fluid)*Diameter*(3*Temperature in Fahrenheit+70)/100
  • Settling Velocity = Falling Speed*Height of Crack/Outer Height
  • Settling Velocity = Displacement velocity/sqrt(8/Darcy Friction Factor)
  • Settling Velocity = Displacement velocity/18
  • Settling Velocity = Falling Speed/Removal Ratio
  • Settling Velocity = Falling Speed*Cross-Sectional Area/Area
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