Specific Surface Area for array of n Cylindrical Particles Solution

STEP 0: Pre-Calculation Summary
Formula Used
Specific Surface Area = (2/Density)*((1/Cylinder Radius)+(1/Length))
Asp = (2/ρ)*((1/Rcyl)+(1/L))
This formula uses 4 Variables
Variables Used
Specific Surface Area - (Measured in Square Meter per Kilogram) - Specific Surface Area is determined as the ratio of the area divided by the mass of an array of particles.
Density - (Measured in Kilogram per Cubic Meter) - The Density of a material shows the denseness of that material in a specific given area. This is taken as mass per unit volume of a given object.
Cylinder Radius - (Measured in Meter) - The Cylinder Radius is the radius of its base.
Length - (Measured in Meter) - Length is the measurement or extent of something from end to end.
STEP 1: Convert Input(s) to Base Unit
Density: 1141 Kilogram per Cubic Meter --> 1141 Kilogram per Cubic Meter No Conversion Required
Cylinder Radius: 0.85 Meter --> 0.85 Meter No Conversion Required
Length: 0.7 Meter --> 0.7 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Asp = (2/ρ)*((1/Rcyl)+(1/L)) --> (2/1141)*((1/0.85)+(1/0.7))
Evaluating ... ...
Asp = 0.00456624367538426
STEP 3: Convert Result to Output's Unit
0.00456624367538426 Square Meter per Kilogram --> No Conversion Required
FINAL ANSWER
0.00456624367538426 0.004566 Square Meter per Kilogram <-- Specific Surface Area
(Calculation completed in 00.004 seconds)

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Amity Institute Of Applied Sciences (AIAS, Amity University), Noida, India
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8 Specific Surface Area Calculators

Surface Enthalpy given Critical Temperature
Go Surface Enthalpy = (Constant for each Liquid)*(1-(Temperature/Critical Temperature))^(Empirical Factor-1)*(1+((Empirical Factor-1)*(Temperature/Critical Temperature)))
Surface Entropy given Critical Temperature
Go Surface Entropy = Empirical Factor*Constant for each Liquid*(1-(Temperature/Critical Temperature))^(Empirical Factor)-(1/Critical Temperature)
Specific Surface Area for array of n Cylindrical Particles
Go Specific Surface Area = (2/Density)*((1/Cylinder Radius)+(1/Length))
Change in Surface Potential
Go Change in Surface Potential = Surface Potential of Monolayer-Surface Potential of Clean Surface
Surface Viscosity
Go Surface Viscosity = Dynamic Viscosity/Thickness of Surface Phase
Specific Surface Area for Thin Rod
Go Specific Surface Area = (2/Density)*(1/Cylinder Radius)
Specific Surface Area
Go Specific Surface Area = 3/(Density*Radius of Sphere)
Specific Surface Area for Flat Disk
Go Specific Surface Area = (2/Density)*(1/Length)

16 Important Formulas of Colloids Calculators

Surface Enthalpy given Critical Temperature
Go Surface Enthalpy = (Constant for each Liquid)*(1-(Temperature/Critical Temperature))^(Empirical Factor-1)*(1+((Empirical Factor-1)*(Temperature/Critical Temperature)))
Surface Entropy given Critical Temperature
Go Surface Entropy = Empirical Factor*Constant for each Liquid*(1-(Temperature/Critical Temperature))^(Empirical Factor)-(1/Critical Temperature)
Ionic Mobility given Zeta Potential using Smoluchowski Equation
Go Ionic Mobility = (Zeta Potential*Relative Permittivity of Solvent)/(4*pi*Dynamic Viscosity of Liquid)
Number of Moles of Surfactant given Critical Micelle Concentration
Go Number of Moles of Surfactant = (Total Concentration of Surfactant-Critical Micelle Concentration)/Degree of Aggregation of Micelle
Zeta Potential using Smoluchowski Equation
Go Zeta Potential = (4*pi*Dynamic Viscosity of Liquid*Ionic Mobility)/Relative Permittivity of Solvent
Micellar Core Radius given Micellar Aggregation Number
Go Micelle Core Radius = ((Micellar Aggregation Number*3*Volume of Hydrophobic Tail)/(4*pi))^(1/3)
Volume of Hydrophobic Tail given Micellar Aggregation Number
Go Volume of Hydrophobic Tail = ((4/3)*pi*(Micelle Core Radius^3))/Micellar Aggregation Number
Micellar Aggregation Number
Go Micellar Aggregation Number = ((4/3)*pi*(Micelle Core Radius^3))/Volume of Hydrophobic Tail
Critical Packing Parameter
Go Critical Packing Parameter = Surfactant Tail Volume/(Optimal Area*Tail Length)
Specific Surface Area for array of n Cylindrical Particles
Go Specific Surface Area = (2/Density)*((1/Cylinder Radius)+(1/Length))
Electrophoretic Mobility of Particle
Go Electrophoretic Mobility = Drift Velocity of Dispersed Particle/Electric Field Intensity
Surface Viscosity
Go Surface Viscosity = Dynamic Viscosity/Thickness of Surface Phase
Critical Chain Length of Hydrocarbon Tail using Tanford Equation
Go Critical Chain Length of Hydrocarbon Tail = (0.154+( 0.1265*Number of Carbon Atoms))
Specific Surface Area
Go Specific Surface Area = 3/(Density*Radius of Sphere)
Number of Carbon Atoms given Critical Chain Length of Hydrocarbon
Go Number of Carbon Atoms = (Critical Chain Length of Hydrocarbon Tail-0.154)/0.1265
Volume of Hydrocarbon Chain using Tanford Equation
Go Micelle Core Volume = (27.4+(26.9*Number of Carbon Atoms))*(10^(-3))

Specific Surface Area for array of n Cylindrical Particles Formula

Specific Surface Area = (2/Density)*((1/Cylinder Radius)+(1/Length))
Asp = (2/ρ)*((1/Rcyl)+(1/L))

What is Specific Surface Area?

Specific Surface Area is determined as the ratio of the area divided by the mass of an array of particles. For a fixed amount of material, the surface area is inversely proportional to the radius for uniform, spherical particles.

How to Calculate Specific Surface Area for array of n Cylindrical Particles?

Specific Surface Area for array of n Cylindrical Particles calculator uses Specific Surface Area = (2/Density)*((1/Cylinder Radius)+(1/Length)) to calculate the Specific Surface Area, The Specific Surface Area for array of n Cylindrical Particles formula is defined as the total area per total mass of array of n cylindrical particles. Specific Surface Area is denoted by Asp symbol.

How to calculate Specific Surface Area for array of n Cylindrical Particles using this online calculator? To use this online calculator for Specific Surface Area for array of n Cylindrical Particles, enter Density (ρ), Cylinder Radius (Rcyl) & Length (L) and hit the calculate button. Here is how the Specific Surface Area for array of n Cylindrical Particles calculation can be explained with given input values -> 0.072618 = (2/1141)*((1/0.85)+(1/0.7)).

FAQ

What is Specific Surface Area for array of n Cylindrical Particles?
The Specific Surface Area for array of n Cylindrical Particles formula is defined as the total area per total mass of array of n cylindrical particles and is represented as Asp = (2/ρ)*((1/Rcyl)+(1/L)) or Specific Surface Area = (2/Density)*((1/Cylinder Radius)+(1/Length)). The Density of a material shows the denseness of that material in a specific given area. This is taken as mass per unit volume of a given object, The Cylinder Radius is the radius of its base & Length is the measurement or extent of something from end to end.
How to calculate Specific Surface Area for array of n Cylindrical Particles?
The Specific Surface Area for array of n Cylindrical Particles formula is defined as the total area per total mass of array of n cylindrical particles is calculated using Specific Surface Area = (2/Density)*((1/Cylinder Radius)+(1/Length)). To calculate Specific Surface Area for array of n Cylindrical Particles, you need Density (ρ), Cylinder Radius (Rcyl) & Length (L). With our tool, you need to enter the respective value for Density, Cylinder Radius & Length 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 Specific Surface Area?
In this formula, Specific Surface Area uses Density, Cylinder Radius & Length. We can use 2 other way(s) to calculate the same, which is/are as follows -
  • Specific Surface Area = 3/(Density*Radius of Sphere)
  • Specific Surface Area = 3/(Density*Radius of Sphere)
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