Diameter given temperature given Fahrenheit Solution

STEP 0: Pre-Calculation Summary
Formula Used
Diameter = Settling Velocity*60/418*(Specific gravity of particle-Specific Gravity of Fluid)*(Temperature in Fahrenheit+10)
D = vs*60/418*(G-Gf)*(TF+10)
This formula uses 5 Variables
Variables Used
Diameter - (Measured in Meter) - Diameter is a straight line passing from side to side through the center of a body or figure, especially a circle or sphere.
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.
Temperature in Fahrenheit - (Measured in Kelvin) - Temperature in Fahrenheit is the temperature scale based on one proposed in 1724 by the physicist Daniel Gabriel Fahrenheit. It uses the degree Fahrenheit as the unit.
STEP 1: Convert Input(s) to Base Unit
Settling Velocity: 1.5 Meter per Second --> 1.5 Meter per Second No Conversion Required
Specific gravity of particle: 16 --> No Conversion Required
Specific Gravity of Fluid: 14 --> No Conversion Required
Temperature in Fahrenheit: 12 Fahrenheit --> 262.038882255554 Kelvin (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
D = vs*60/418*(G-Gf)*(TF+10) --> 1.5*60/418*(16-14)*(262.038882255554+10)
Evaluating ... ...
D = 117.145930157894
STEP 3: Convert Result to Output's Unit
117.145930157894 Meter --> No Conversion Required
FINAL ANSWER
117.145930157894 117.1459 Meter <-- Diameter
(Calculation completed in 00.020 seconds)

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13 Diameter of Sediment Particle Calculators

Diameter of Particle given Settling Velocity
Go Effective Particle Diameter = 3*Drag Coefficient*Liquid Density*Settling Velocity^2/(4*[g]*(Density of Particle-Liquid Density))
Diameter for Settling Velocity with respect to Kinematic Viscosity
Go Diameter = sqrt(Settling Velocity*18*Kinematic Viscosity/[g]*(Specific gravity of particle-Specific Gravity of Fluid))
Diameter given Settling Velocity in Fahrenheit
Go Diameter = sqrt(Settling Velocity/418*(Specific gravity of particle-Specific Gravity of Fluid)*((Outside Temperature+10)/60))
Diameter given Settling Velocity with respect to Dynamic Viscosity
Go Diameter = sqrt(18*Settling Velocity*Dynamic Viscosity/[g]*(Mass Density-Liquid Density))
Diameter given Settling Velocity given Celsius
Go Diameter = sqrt(Settling Velocity*100/418*(Specific gravity of particle-Specific Gravity of Fluid)*(3*Temperature+70))
Diameter given Displacement Velocity by Camp
Go Diameter = Displacement velocity^2*Darcy Friction Factor/(8*Beta Constant*[g]*(Density of Particle-1))
Diameter given temperature given Celsius for diameter greater than 0.1mm
Go Diameter = Settling Velocity*100/418*(Specific gravity of particle-Specific Gravity of Fluid)*(3*Temperature in Fahrenheit+70)
Diameter given Specific Gravity of Particle and Viscosity
Go Diameter = sqrt(Settling Velocity*Kinematic Viscosity*18/[g]*(Specific gravity of particle-1))
Diameter given temperature given Fahrenheit
Go Diameter = Settling Velocity*60/418*(Specific gravity of particle-Specific Gravity of Fluid)*(Temperature in Fahrenheit+10)
Diameter given Settling Velocity at 10 degree Celsius
Go Diameter = sqrt(Settling Velocity/418*(Specific gravity of particle-Specific Gravity of Fluid))
Diameter of Particle given Settling Velocity with respect to Specific Gravity
Go Diameter = (3*Drag Coefficient*Settling Velocity^2)/(4*[g]*(Specific gravity of particle-1))
Diameter of Particle given Particle Reynold's Number
Go Diameter = Dynamic Viscosity*Reynolds Number/(Liquid Density*Settling Velocity)
Diameter of Particle given Volume of Particle
Go Diameter = (6*Volume of One Particle/pi)^(1/3)

Diameter given temperature given Fahrenheit Formula

Diameter = Settling Velocity*60/418*(Specific gravity of particle-Specific Gravity of Fluid)*(Temperature in Fahrenheit+10)
D = vs*60/418*(G-Gf)*(TF+10)

What is Stokes Law ?

Stokes law is the basis of the falling-sphere viscometer, in which the fluid is stationary in a vertical glass tube. A sphere of known size and density is allowed to descend through the liquid.

How to Calculate Diameter given temperature given Fahrenheit?

Diameter given temperature given Fahrenheit calculator uses Diameter = Settling Velocity*60/418*(Specific gravity of particle-Specific Gravity of Fluid)*(Temperature in Fahrenheit+10) to calculate the Diameter, The Diameter given temperature given Fahrenheit is defined as the dimensional parameter influencing the settling velocity of particle in sedimentation process during the treatment of water. Diameter is denoted by D symbol.

How to calculate Diameter given temperature given Fahrenheit using this online calculator? To use this online calculator for Diameter given temperature given Fahrenheit, enter Settling Velocity (vs), Specific gravity of particle (G), Specific Gravity of Fluid (Gf) & Temperature in Fahrenheit (TF) and hit the calculate button. Here is how the Diameter given temperature given Fahrenheit calculation can be explained with given input values -> 58.57297 = 1.5*60/418*(16-14)*(262.038882255554+10).

FAQ

What is Diameter given temperature given Fahrenheit?
The Diameter given temperature given Fahrenheit is defined as the dimensional parameter influencing the settling velocity of particle in sedimentation process during the treatment of water and is represented as D = vs*60/418*(G-Gf)*(TF+10) or Diameter = Settling Velocity*60/418*(Specific gravity of particle-Specific Gravity of Fluid)*(Temperature in Fahrenheit+10). Settling velocity is defined as the terminal velocity of a particle in still fluid, 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 & Temperature in Fahrenheit is the temperature scale based on one proposed in 1724 by the physicist Daniel Gabriel Fahrenheit. It uses the degree Fahrenheit as the unit.
How to calculate Diameter given temperature given Fahrenheit?
The Diameter given temperature given Fahrenheit is defined as the dimensional parameter influencing the settling velocity of particle in sedimentation process during the treatment of water is calculated using Diameter = Settling Velocity*60/418*(Specific gravity of particle-Specific Gravity of Fluid)*(Temperature in Fahrenheit+10). To calculate Diameter given temperature given Fahrenheit, you need Settling Velocity (vs), Specific gravity of particle (G), Specific Gravity of Fluid (Gf) & Temperature in Fahrenheit (TF). With our tool, you need to enter the respective value for Settling Velocity, Specific gravity of particle, Specific Gravity of Fluid & Temperature in Fahrenheit 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 Diameter?
In this formula, Diameter uses Settling Velocity, Specific gravity of particle, Specific Gravity of Fluid & Temperature in Fahrenheit. We can use 11 other way(s) to calculate the same, which is/are as follows -
  • Diameter = (6*Volume of One Particle/pi)^(1/3)
  • Diameter = (3*Drag Coefficient*Settling Velocity^2)/(4*[g]*(Specific gravity of particle-1))
  • Diameter = Dynamic Viscosity*Reynolds Number/(Liquid Density*Settling Velocity)
  • Diameter = sqrt(18*Settling Velocity*Dynamic Viscosity/[g]*(Mass Density-Liquid Density))
  • Diameter = sqrt(Settling Velocity*18*Kinematic Viscosity/[g]*(Specific gravity of particle-Specific Gravity of Fluid))
  • Diameter = sqrt(Settling Velocity*Kinematic Viscosity*18/[g]*(Specific gravity of particle-1))
  • Diameter = sqrt(Settling Velocity/418*(Specific gravity of particle-Specific Gravity of Fluid))
  • Diameter = sqrt(Settling Velocity/418*(Specific gravity of particle-Specific Gravity of Fluid)*((Outside Temperature+10)/60))
  • Diameter = sqrt(Settling Velocity*100/418*(Specific gravity of particle-Specific Gravity of Fluid)*(3*Temperature+70))
  • Diameter = Settling Velocity*100/418*(Specific gravity of particle-Specific Gravity of Fluid)*(3*Temperature in Fahrenheit+70)
  • Diameter = Displacement velocity^2*Darcy Friction Factor/(8*Beta Constant*[g]*(Density of Particle-1))
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