Ishan Gupta
Birla Institute of Technology & Science (BITS), Pilani
Ishan Gupta has created this Calculator and 50+ more calculators!

1 Other formulas that you can solve using the same Inputs

Sphericity of a particle
Sphericity of Particle=6*(Volume of one Particle/(Surface Area of a Particle*Density of Particle)) GO

11 Other formulas that calculate the same Output

Surface Area of Cuboid
Surface Area=2*((Length*Height)+(Height*Breadth)+(Length*Breadth)) GO
Surface Area of a Rectangular Prism
Surface Area=2*(Length*Width+Length*Height+Width*Height) GO
Surface Area of triangular prism
Surface Area=(Base*Height)+(2*Length*Side)+(Length*Base) GO
Surface Area of Prisms
Surface Area=(2*Base Area)+(Height*Base Perimeter) GO
Surface Area of Dodecahedron
Surface Area=3*(sqrt(25+(10*sqrt(5))))*(Side^2) GO
Surface Area of a Capsule
Surface Area=2*pi*Radius*(2*Radius+Side) GO
Surface Area of Regular Octahedron
Surface Area=2*(sqrt(3))*(Side^2) GO
Surface Area of Icosahedron
Surface Area=5*(sqrt(3))*(Side^2) GO
Surface Area of Regular Tetrahedron
Surface Area=(sqrt(3))*(Side^2) GO
Surface Area of a Sphere
Surface Area=4*pi*Radius^2 GO
Surface Area of a Cube
Surface Area=6*Side^2 GO

Total Surface Area of Particles Formula

Surface Area=Surface Area of a Particle*Number of Particles
More formulas
Sphericity of a particle GO
Sphericity of a cylindrical particle GO
Number of Particles GO
Sphericity of a cuboidal particle GO
Energy Required to Crush Coarse Materials according to Bond's Law GO
Heat Transfer Through Plane Wall or Surface GO
Critical Radius of Insulation of a Sphere GO
Critical Radius of Insulation of a Cylinder GO
Emmisive power of a body (Radiation) GO
Number of Transfer Units in a Heat Exchanger GO
Log Mean Temperature Difference for CoCurrent Flow GO
Log Mean Temperature Difference for Counter Current Flow GO
Heat Exchanger Effectiveness GO
Heat Transfer in a Heat Exchanger using overall heat transfer coefficient GO
Heat Transfer in a Heat Exchanger using cold fluid properties GO
Heat Transfer in a Heat Exchanger using hot fluid properties GO
Reynolds Number for Circular Tubes GO
Reynolds Number for Non-Circular Tubes GO
Prandtl Number GO
Nusselt Number for Transitional and Rough Flow in Circular Tube GO
Stanton Number (using dimensionless numbers) GO
Stanton Number (using basic fluid properties) GO
Concentration of the reactant in zero-order reaction GO
Concentration of the reactant in first-order reaction GO
Concentration of the reactant in second-order reaction (only one reactant) GO
Partial Pressure (using Raoult's Law) GO
Relative Volatility GO
Thermal Diffusivity GO
Momentum Diffusivity GO
Prandtl Number (using diffusivities) GO
Initial concentration of reactants in the feed GO
Molar Feed Rate of Reactants GO
Volumetric flow rate of feed GO
Space time of the reactor GO
Space velocity of a reactor GO
Conversion of Reactant A (batch) GO
Molar flow rate at which reactant A leaves the system GO
Conversion of Reactant A (flow) GO
Batch Reactor: Number of Moles Remaining (of reactant A) GO
Height of capillary rise/fall GO
Hydrostatic Force on Plane Submerged Surface GO
Hydrostatic Force on Curved Submerged Surface GO
Head Loss due to friction GO
Fanning friction factor GO
Radial Heat flowing through a cylinder GO
Radiative Heat Transfer GO

Total Surface Area of Particles

Total Surface Area of Particles is the total surface area of all the particles present in the given mixture.

How to Calculate Total Surface Area of Particles?

Total Surface Area of Particles calculator uses Surface Area=Surface Area of a Particle*Number of Particles to calculate the Surface Area, Total Surface Area of Particles is the total surface area of all the particles present in the given mixture. Surface Area and is denoted by SA symbol.

How to calculate Total Surface Area of Particles using this online calculator? To use this online calculator for Total Surface Area of Particles, enter Surface Area of a Particle (Sp) and Number of Particles (Np) and hit the calculate button. Here is how the Total Surface Area of Particles calculation can be explained with given input values -> 0.0001 = 1E-05*10.

FAQ

What is Total Surface Area of Particles?
Total Surface Area of Particles is the total surface area of all the particles present in the given mixture and is represented as SA=Sp*Np or Surface Area=Surface Area of a Particle*Number of Particles. Surface Area of a Particle is the total area of the surface of a three-dimensional object and Number of Particles is the number of particles present in a given sample/mixture.
How to calculate Total Surface Area of Particles?
Total Surface Area of Particles is the total surface area of all the particles present in the given mixture is calculated using Surface Area=Surface Area of a Particle*Number of Particles. To calculate Total Surface Area of Particles, you need Surface Area of a Particle (Sp) and Number of Particles (Np). With our tool, you need to enter the respective value for Surface Area of a Particle and Number of Particles 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 Surface Area?
In this formula, Surface Area uses Surface Area of a Particle and Number of Particles. We can use 11 other way(s) to calculate the same, which is/are as follows -
  • Surface Area=2*pi*Radius*(2*Radius+Side)
  • Surface Area=6*Side^2
  • Surface Area=2*(Length*Width+Length*Height+Width*Height)
  • Surface Area=4*pi*Radius^2
  • Surface Area=3*(sqrt(25+(10*sqrt(5))))*(Side^2)
  • Surface Area=5*(sqrt(3))*(Side^2)
  • Surface Area=2*(sqrt(3))*(Side^2)
  • Surface Area=(sqrt(3))*(Side^2)
  • Surface Area=2*((Length*Height)+(Height*Breadth)+(Length*Breadth))
  • Surface Area=(2*Base Area)+(Height*Base Perimeter)
  • Surface Area=(Base*Height)+(2*Length*Side)+(Length*Base)
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