Projected Area of Solid Body Solution

STEP 0: Pre-Calculation Summary
Formula Used
Projected Area of Solid Particle Body = 2*(Drag Force)/(Drag Coefficient*Density of Liquid*(Velocity of Liquid)^(2))
Ap = 2*(FD)/(CD*ρl*(vliquid)^(2))
This formula uses 5 Variables
Variables Used
Projected Area of Solid Particle Body - (Measured in Square Meter) - Projected Area Of Solid Particle Body is the projected area of body of interest.
Drag Force - (Measured in Newton) - Drag Force is the resisting force experienced by an object moving through a fluid.
Drag Coefficient - Drag Coefficient is a dimensionless quantity that is used to quantify the drag or resistance of an object in a fluid environment, such as air or water.
Density of Liquid - (Measured in Kilogram per Cubic Meter) - Density of Liquid is mass of a unit volume of a material substance.
Velocity of Liquid - (Measured in Meter per Second) - The Velocity of Liquid in the pipe is defined as the product of the ratio of areas of the cylinder to the pipe, angular velocity, the radius of crank and sin of angular velocity and time.
STEP 1: Convert Input(s) to Base Unit
Drag Force: 80 Newton --> 80 Newton No Conversion Required
Drag Coefficient: 1.98 --> No Conversion Required
Density of Liquid: 3.9 Kilogram per Cubic Meter --> 3.9 Kilogram per Cubic Meter No Conversion Required
Velocity of Liquid: 17.9 Meter per Second --> 17.9 Meter per Second No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Ap = 2*(FD)/(CDl*(vliquid)^(2)) --> 2*(80)/(1.98*3.9*(17.9)^(2))
Evaluating ... ...
Ap = 0.0646672098873965
STEP 3: Convert Result to Output's Unit
0.0646672098873965 Square Meter --> No Conversion Required
FINAL ANSWER
0.0646672098873965 0.064667 Square Meter <-- Projected Area of Solid Particle Body
(Calculation completed in 00.020 seconds)

Credits

Created by Vaibhav Mishra
DJ Sanghvi College of Engineering (DJSCE), Mumbai
Vaibhav Mishra has created this Calculator and 300+ more calculators!
Verified by Soupayan banerjee
National University of Judicial Science (NUJS), Kolkata
Soupayan banerjee has verified this Calculator and 800+ more calculators!

3 Size Separation Calculators

Projected Area of Solid Body
Go Projected Area of Solid Particle Body = 2*(Drag Force)/(Drag Coefficient*Density of Liquid*(Velocity of Liquid)^(2))
Terminal Settling Velocity of Single Particle
Go Terminal Velocity of Single Particle = Settling Velocity of Group of Particles/(Void fraction)^Richardsonb Zaki Index
Settling Velocity of Group of Particles
Go Settling Velocity of Group of Particles = Terminal Velocity of Single Particle*(Void fraction)^Richardsonb Zaki Index

19 Important Formulas in Size Reduction Laws Calculators

Half of Gaps between Rolls
Go Half of Gap between Rolls = ((cos(Half Angle of Nip))*(Radius of Feed+Radius of Crushing Rolls))-Radius of Crushing Rolls
Area of Product given Crushing Efficiency
Go Area of Product = ((Crushing Efficiency*Energy Absorbed by Material)/(Surface Energy per Unit Area*Length))+Area of Feed
Radius of Feed in Smooth Roll Crusher
Go Radius of Feed = (Radius of Crushing Rolls+Half of Gap between Rolls)/cos(Half Angle of Nip)-Radius of Crushing Rolls
Critical Speed of Conical Ball Mill
Go Critical Speed of Conical Ball Mill = 1/(2*pi)*sqrt( [g]/(Radius of Ball Mill-Radius of Ball))
Area of Feed given Crushing Efficiency
Go Area of Feed = Area of Product-((Crushing Efficiency*Energy Absorbed By Unit Mass Of Feed)/(Surface Energy per Unit Area))
Projected Area of Solid Body
Go Projected Area of Solid Particle Body = 2*(Drag Force)/(Drag Coefficient*Density of Liquid*(Velocity of Liquid)^(2))
Energy Absorbed by Material while Crushing
Go Energy Absorbed by Material = (Surface Energy per Unit Area*(Area of Product-Area of Feed))/(Crushing Efficiency)
Crushing Efficiency
Go Crushing Efficiency = (Surface Energy per Unit Area*(Area of Product-Area of Feed))/Energy Absorbed by Material
Radius of Ball Mill
Go Radius of Ball Mill = ([g]/(2*pi*Critical Speed of Conical Ball Mill)^2)+Radius of Ball
Terminal Settling Velocity of Single Particle
Go Terminal Velocity of Single Particle = Settling Velocity of Group of Particles/(Void fraction)^Richardsonb Zaki Index
Power Consumption while Mill is Empty
Go Power Consumption While Mill is Empty = Power Consumption by Mill While Crushing-Power Consumption for Crushing Only
Power Consumption for Crushing only
Go Power Consumption for Crushing Only = Power Consumption by Mill While Crushing-Power Consumption While Mill is Empty
Mechanical Efficiency given Energy fed to System
Go Mechanical Efficiency in Terms of Energy Fed = Energy Absorbed By Unit Mass Of Feed/Energy Fed to Machine
Radius of Crushing Rolls
Go Radius of Crushing Rolls = (Maximum Diameter of Particle Nipped by Rolls-Half of Gap between Rolls)/0.04
Maximum Diameter of Particle Nipped by Rolls
Go Maximum Diameter of Particle Nipped by Rolls = 0.04*Radius of Crushing Rolls+Half of Gap between Rolls
Work required for Reduction of Particles
Go Work Required for Reduction of Particles = Power Required by Machine/Feed Rate to Machine
Product Diameter Based on Reduction Ratio
Go Product Diameter = Feed Diameter/Reduction Ratio
Feed Diameter based on Reduction Law
Go Feed Diameter = Reduction Ratio*Product Diameter
Reduction Ratio
Go Reduction Ratio = Feed Diameter/Product Diameter

21 Basic Formulas of Mechanical Operations Calculators

Sphericity of Cuboidal Particle
Go Sphericity of Cuboidal Particle = ((((Length*Breadth*Height)*(0.75/pi))^(1/3)^2)*4*pi)/(2*(Length*Breadth+Breadth*Height+Height*Length))
Sphericity of Cylindrical Particle
Go Sphericity of Cylindrical Particle = (((((Cylinder Radius)^2*Cylinder Height*3/4)^(1/3))^2)*4*pi)/(2*pi*Cylinder Radius*(Cylinder Radius+Cylinder Height))
Pressure Gradient using Kozeny Carman Equation
Go Pressure Gradient = (150*Dynamic Viscosity*(1-Porosity)^2*Velocity)/((Sphericity of Particle)^2*(Equivalent Diameter)^2*(Porosity)^3)
Projected Area of Solid Body
Go Projected Area of Solid Particle Body = 2*(Drag Force)/(Drag Coefficient*Density of Liquid*(Velocity of Liquid)^(2))
Total Surface Area of Particle using Spericity
Go Total Surface Area of Particles = Mass*6/(Sphericity of Particle*Density Of Particle*Arithmetic Mean Diameter)
Terminal Settling Velocity of Single Particle
Go Terminal Velocity of Single Particle = Settling Velocity of Group of Particles/(Void fraction)^Richardsonb Zaki Index
Material Characteristic using Angle of Friction
Go Material Characteristic = (1-sin(Angle of Friction))/(1+sin(Angle of Friction))
Sphericity of Particle
Go Sphericity of Particle = (6*Volume of One Spherical Particle)/(Surface Area of Particle*Equivalent Diameter)
Total Number of Particles in Mixture
Go Total Number of Particles in Mixture = Total Mass of Mixture/(Density Of Particle* Volume Of One Particle)
Energy Required to Crush Coarse Materials according to Bond's Law
Go Energy per Unit Mass of Feed = Work Index*((100/Product Diameter)^0.5-(100/Feed Diameter)^0.5)
Number of Particles
Go Number of Particles = Mixture Mass/(Density of One Particle*Volume of Spherical Particle)
Fraction of Cycle Time used for Cake Formation
Go Fraction of Cycle Time Used For Cake Formation = Time Required For Cake Formation/Total Cycle Time
Time Required for Cake Formation
Go Time Required For Cake Formation = Fraction of Cycle Time Used For Cake Formation*Total Cycle Time
Specific Surface Area of Mixture
Go Specific Surface Area of Mixture = Total Surface Area/Total Mass of Mixture
Mass Mean Diameter
Go Mass Mean Diameter = (Mass Fraction*Size Of Particles Present In Fraction)
Sauter Mean Diameter
Go Sauter Mean Diameter = (6*Volume of Particle)/(Surface Area of Particle)
Porosity or Void Fraction
Go Porosity or Void Fraction = Volume of Voids in Bed/Total Volume of Bed
Total Surface Area of Particles
Go Surface Area = Surface Area of One Particle*Number of Particles
Applied Pressure in Terms of Coefficient of Flowability for Solids
Go Applied Pressure = Normal Pressure/Coefficient of Flowability
Coefficient of Flowability of Solids
Go Coefficient of Flowability = Normal Pressure/Applied Pressure
Surface Shape Factor
Go Surface Shape Factor = 1/Sphericity of Particle

Projected Area of Solid Body Formula

Projected Area of Solid Particle Body = 2*(Drag Force)/(Drag Coefficient*Density of Liquid*(Velocity of Liquid)^(2))
Ap = 2*(FD)/(CD*ρl*(vliquid)^(2))

What is a Machine Jig?

A jig is a device used in securing a workpiece and machine part on a workstation. It is secured to the CNC machine tools such as a lathe cutting tool, where it dictates the location and motion. That means, in a way, it guides such machining tools. Jigs are unique such that when they move, the tool becomes stationary.

How to Calculate Projected Area of Solid Body?

Projected Area of Solid Body calculator uses Projected Area of Solid Particle Body = 2*(Drag Force)/(Drag Coefficient*Density of Liquid*(Velocity of Liquid)^(2)) to calculate the Projected Area of Solid Particle Body, The Projected Area of solid body is the area of the body projected on a plane normal to the direction of flow. Projected Area of Solid Particle Body is denoted by Ap symbol.

How to calculate Projected Area of Solid Body using this online calculator? To use this online calculator for Projected Area of Solid Body, enter Drag Force (FD), Drag Coefficient (CD), Density of Liquid l) & Velocity of Liquid (vliquid) and hit the calculate button. Here is how the Projected Area of Solid Body calculation can be explained with given input values -> 0.064021 = 2*(80)/(1.98*3.9*(17.9)^(2)).

FAQ

What is Projected Area of Solid Body?
The Projected Area of solid body is the area of the body projected on a plane normal to the direction of flow and is represented as Ap = 2*(FD)/(CDl*(vliquid)^(2)) or Projected Area of Solid Particle Body = 2*(Drag Force)/(Drag Coefficient*Density of Liquid*(Velocity of Liquid)^(2)). Drag Force is the resisting force experienced by an object moving through a fluid, Drag Coefficient is a dimensionless quantity that is used to quantify the drag or resistance of an object in a fluid environment, such as air or water, Density of Liquid is mass of a unit volume of a material substance & The Velocity of Liquid in the pipe is defined as the product of the ratio of areas of the cylinder to the pipe, angular velocity, the radius of crank and sin of angular velocity and time.
How to calculate Projected Area of Solid Body?
The Projected Area of solid body is the area of the body projected on a plane normal to the direction of flow is calculated using Projected Area of Solid Particle Body = 2*(Drag Force)/(Drag Coefficient*Density of Liquid*(Velocity of Liquid)^(2)). To calculate Projected Area of Solid Body, you need Drag Force (FD), Drag Coefficient (CD), Density of Liquid l) & Velocity of Liquid (vliquid). With our tool, you need to enter the respective value for Drag Force, Drag Coefficient, Density of Liquid & Velocity of Liquid and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Copied!