Anshika Arya
National Institute Of Technology (NIT), Hamirpur
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Rushi Shah
K J Somaiya College of Engineering (K J Somaiya), Mumbai
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11 Other formulas that you can solve using the same Inputs

Stress at Point y for a Curved Beam
Stress=((Bending Moment )/(Cross sectional area*Radius of Centroidal Axis))*(1+((Distance of Point from Centroidal Axis)/(Cross-Section Property*(Radius of Centroidal Axis+Distance of Point from Centroidal Axis)))) GO
Bending Moment When Stress is Applied at Point y in a Curved Beam
Bending Moment =((Stress*Cross sectional area*Radius of Centroidal Axis)/(1+(Distance of Point from Centroidal Axis/(Cross-Section Property*(Radius of Centroidal Axis+Distance of Point from Centroidal Axis))))) GO
Neutral Axis to Outermost Fiber Distance when Total Unit Stress in Eccentric Loading is Given
Outermost Fiber Distance=(Total Unit Stress-(Axial Load/Cross sectional area))*Moment of Inertia about Neutral Axis/(Axial Load*Distance_from Load Applied) GO
Total Unit Stress in Eccentric Loading
Total Unit Stress=(Axial Load/Cross sectional area)+(Axial Load*Outermost Fiber Distance*Distance_from Load Applied/Moment of Inertia about Neutral Axis) GO
Maximum Bending Moment when Maximum Stress For Short Beams is Given
Maximum Bending Moment=((Maximum stress at crack tip-(Axial Load/Cross sectional area))*Moment of Inertia)/Distance from the Neutral axis GO
Maximum Stress For Short Beams
Maximum stress at crack tip=(Axial Load/Cross sectional area)+((Maximum Bending Moment*Distance from the Neutral axis)/Moment of Inertia) GO
Axial Load when Maximum Stress For Short Beams is Given
Axial Load=Cross sectional area*(Maximum stress at crack tip-(Maximum Bending Moment*Distance from the Neutral axis/Moment of Inertia)) GO
Electric Current when Drift Velocity is Given
Electric Current=Number of free charge particles per unit volume*[Charge-e]*Cross sectional area*Drift Velocity GO
Resistance
Resistance=(Resistivity*Length of Conductor)/Cross sectional area GO
Centrifugal Stress
Centrifugal Stress=2*Tensile Stress*Cross sectional area GO
Rate of Flow
Rate of flow=Cross sectional area*Average Velocity GO

11 Other formulas that calculate the same Output

Circle Diameter when Maximum Permissible Eccentricity for Spiral Columns is Given
Diameter =(Maximum permissible eccentricity-0.14*Overall depth of column)/(0.43*Area ratio of cross sectional area to gross area*Force ratio of strengths of reinforcements) GO
Diameter of Roller or Rocker for milled surface when Allowable Stress is Given for d > 635 mm
Diameter =(6.67*Allowable Bearing Stresses on Pins/(yield strength of steel-13))^2 GO
Diameter of Roller or Rocker for milled surface when Allowable Stress is Given for d < 635 mm
Diameter =33.33*Allowable Bearing Stresses on Pins/(yield strength of steel-13) GO
Circle Diameter when Axial Load for Spiral Columns is Given
Diameter =moment/(0.12*Total area*Yield strength of reinforcing steel) GO
Diameter bisecting chords of slope m to the parabola y2 = 4ax
Diameter =(2*x coordinate of focus of parabola)/Slope of Line GO
Diameter of a circle when circumference is given
Diameter =Circumference of Circle/pi GO
Diameter of a circle when area is given
Diameter =2*sqrt(Area of Circle/pi) GO
Diameter of a Nugget
Diameter =6*(Thickness)^1/2 GO
Diameter of a circular cylinder of maximum convex surface area in a given circular cone
Diameter =Radius of cone GO
Diameter of a circle when radius is given
Diameter =2*Radius GO
Diameter of Sphere
Diameter =2*Radius GO

Diameter of a Rod Circular Fin when area of cross-section is Given Formula

Diameter =sqrt((Cross sectional area*4)/pi)
d=sqrt((A*4)/pi)
More formulas
Heat flux GO
One dimensional heat flux GO
Heat transfer GO
Non Ideal Body Surface Emittance GO
Black bodies heat exchange by radiation GO
Heat Exchange By Radiation Due To Geometric Arrangement GO
Newton's law of cooling GO
Thermal resistance in convection heat transfer GO
Convective processes heat transfer coefficient GO
Heat Transfer According to Fourier's Law GO
Thermal Conductivity when Critical Thickness of Insulation for a Cylinder is Given GO
Critical Thickness of Insulation for a Cylinder GO
Heat Transfer by Conduction at Base GO
Absolute humidity of air at initial air temperature GO

What is steady state heat flow?

Steady-state conduction is the form of conduction that happens when the temperature difference(s) driving the conduction are constant, so that (after an equilibration time), the spatial distribution of temperatures (temperature field) in the conducting object does not change any further.

How to Calculate Diameter of a Rod Circular Fin when area of cross-section is Given?

Diameter of a Rod Circular Fin when area of cross-section is Given calculator uses Diameter =sqrt((Cross sectional area*4)/pi) to calculate the Diameter , Diameter of a Rod Circular Fin when area of cross-section is Given formula gives the value of the diameter of Rod Circular Fin with the given cross-sectional area. Diameter and is denoted by d symbol.

How to calculate Diameter of a Rod Circular Fin when area of cross-section is Given using this online calculator? To use this online calculator for Diameter of a Rod Circular Fin when area of cross-section is Given, enter Cross sectional area (A) and hit the calculate button. Here is how the Diameter of a Rod Circular Fin when area of cross-section is Given calculation can be explained with given input values -> 3.568248 = sqrt((10*4)/pi).

FAQ

What is Diameter of a Rod Circular Fin when area of cross-section is Given?
Diameter of a Rod Circular Fin when area of cross-section is Given formula gives the value of the diameter of Rod Circular Fin with the given cross-sectional area and is represented as d=sqrt((A*4)/pi) or Diameter =sqrt((Cross sectional area*4)/pi). Cross sectional area is the area of a two-dimensional shape that is obtained when a three dimensional shape is sliced perpendicular to some specifies axis at a point.
How to calculate Diameter of a Rod Circular Fin when area of cross-section is Given?
Diameter of a Rod Circular Fin when area of cross-section is Given formula gives the value of the diameter of Rod Circular Fin with the given cross-sectional area is calculated using Diameter =sqrt((Cross sectional area*4)/pi). To calculate Diameter of a Rod Circular Fin when area of cross-section is Given, you need Cross sectional area (A). With our tool, you need to enter the respective value for Cross sectional area 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 Cross sectional area. We can use 11 other way(s) to calculate the same, which is/are as follows -
  • Diameter =Circumference of Circle/pi
  • Diameter =2*sqrt(Area of Circle/pi)
  • Diameter =2*Radius
  • Diameter =Radius of cone
  • Diameter =6*(Thickness)^1/2
  • Diameter =2*Radius
  • Diameter =(Maximum permissible eccentricity-0.14*Overall depth of column)/(0.43*Area ratio of cross sectional area to gross area*Force ratio of strengths of reinforcements)
  • Diameter =moment/(0.12*Total area*Yield strength of reinforcing steel)
  • Diameter =(2*x coordinate of focus of parabola)/Slope of Line
  • Diameter =33.33*Allowable Bearing Stresses on Pins/(yield strength of steel-13)
  • Diameter =(6.67*Allowable Bearing Stresses on Pins/(yield strength of steel-13))^2
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