Sanjay Krishna
Amrita School of Engineering (ASE), Vallikavu
Sanjay Krishna has created this Calculator and 200+ more calculators!
Maiarutselvan V
PSG College of Technology (PSGCT), Coimbatore
Maiarutselvan V has verified this Calculator and 200+ more calculators!

11 Other formulas that you can solve using the same Inputs

Strain Energy due to Torsion in Hollow Shaft
Strain Energy=(Shear Stress^(2))*(Outer diameter^(2)+Inner Diameter^(2))*Volume of Shaft/(4*Shear Modulus*Outer diameter^(2)) GO
Dynamic viscosity of fluids
Dynamic viscosity=(Shear Stress)/((velocity of moving plate)/(distance between plates)) GO
Shear force on shear plane for given shear stress, width of cut, uncut chip thickness & shear angle
Shear Force=(Shear Stress*Width of cut*uncut chip thickness*(10^12))/sin(Shear Angle) GO
Velocity Of Moving Plates When Dynamic Viscosity Is Given
velocity of moving plate=Shear Stress*distance between plates/(Dynamic viscosity) GO
Distance Between Plates When Dynamic Viscosity Of A Fluid Is Given
distance between plates=Dynamic viscosity*velocity of moving plate/Shear Stress GO
Strain Energy in Torsion for Solid Shaft
Strain Energy=Shear Stress^(2)*Volume of Shaft/(4*Shear Modulus) GO
Strain energy due to pure shear
Strain Energy=Shear Stress*Shear Stress*Volume/(2*Shear Modulus) GO
Shear force acting on shear plane for given shear stress & area of shear plane
Shear Force=Shear Stress*Area of shear plane GO
Shear resistance if shear stress is known
Shear Resistance=Shear Stress*Shear Area GO
Shear Modulus
Shear Modulus=Shear Stress/Shear Strain GO
Force normal to shear force for given mean normal shear stress & area of shear plane
Normal Force=Shear Stress*Shear Area GO

4 Other formulas that calculate the same Output

Static velocity equation using aerodynamic heating equation
Static velocity=Local heat transfer rate/(static density*Stanton Number*(Adiabatic wall enthalpy-Wall enthalpy)) GO
Static velocity using Stanton number
Static velocity=Local heat transfer rate/(Stanton Number*static density*(Adiabatic wall enthalpy-Wall enthalpy)) GO
Static velocity at transition point
Static velocity=(Transition Reynolds number*static viscosity)/(static density*Location transition point) GO
Static velocity of the plate using chord length for flat plate case
Static velocity=(Reynolds number using chord length*static viscosity)/(static density*Chord Length) GO

Static velocity equation using skin friction coefficient Formula

Static velocity=sqrt((2*Shear Stress)/(Local skin-friction coefficient*static density))
u<sub>e</sub>=sqrt((2*𝜏 )/(cf*ρ<sub>e</sub>))
More formulas
Local skin-friction coefficient GO
local shear stress at the wall GO
Static Density equation using skin friction coefficient GO
Nusselt number for hypersonic vehicle GO
local heat-transfer rate using Nusselt's number GO
Thermal conductivity at the edge of the boundary layer equation using Nusselt's number GO
Stanton number for hypersonic vehicle GO
Local heat-transfer rate calculation using Stanton number GO
Static density equation using Stanton number GO
Static velocity using Stanton number GO
Adiabatic wall enthalpy using Stanton number GO
Nusselt's number with Reynolds number, the Stanton number and Prandtl number GO
Reynolds number for given Nusselt's number, Stanton number and Prandtl number GO
Stanton number with Reynolds number, Nusselt's number, Stanton number and Prandtl number GO
Prandtl number with Reynolds number, Nusselt's number, Stanton number and Stanton number GO
Skin friction coefficient for incompressible flow GO
viscosity around the wall GO
Static viscosity relation using temperature of wall GO

What is skin friction coefficient ?

The skin friction coefficient is an important dimensionless parameter in boundary-layer flows. It specifies the fraction of the local dynamic pressure, (0.5)* ρ* U ^2 , that is felt as shear stress on the surface

How to Calculate Static velocity equation using skin friction coefficient?

Static velocity equation using skin friction coefficient calculator uses Static velocity=sqrt((2*Shear Stress)/(Local skin-friction coefficient*static density)) to calculate the Static velocity, The Static velocity equation using skin friction coefficient formula is defined as the square root of ratio of double the shear stress to the product of skin friction coefficient and square of static density. Static velocity and is denoted by ue symbol.

How to calculate Static velocity equation using skin friction coefficient using this online calculator? To use this online calculator for Static velocity equation using skin friction coefficient, enter Shear Stress (𝜏 ), Local skin-friction coefficient (cf) and static density e) and hit the calculate button. Here is how the Static velocity equation using skin friction coefficient calculation can be explained with given input values -> 0.003162 = sqrt((2*50)/(0.1*100000000)).

FAQ

What is Static velocity equation using skin friction coefficient?
The Static velocity equation using skin friction coefficient formula is defined as the square root of ratio of double the shear stress to the product of skin friction coefficient and square of static density and is represented as ue=sqrt((2*𝜏 )/(cf*ρe)) or Static velocity=sqrt((2*Shear Stress)/(Local skin-friction coefficient*static density)). The Shear stress is force tending to cause deformation of a material by slippage along a plane or planes parallel to the imposed stress, Local skin-friction coefficient specifies the fraction of the local dynamic pressure and static density, is the density of the fluid when its not moving or the denity of fluid if we r moving relative to the fluid.
How to calculate Static velocity equation using skin friction coefficient?
The Static velocity equation using skin friction coefficient formula is defined as the square root of ratio of double the shear stress to the product of skin friction coefficient and square of static density is calculated using Static velocity=sqrt((2*Shear Stress)/(Local skin-friction coefficient*static density)). To calculate Static velocity equation using skin friction coefficient, you need Shear Stress (𝜏 ), Local skin-friction coefficient (cf) and static density e). With our tool, you need to enter the respective value for Shear Stress, Local skin-friction coefficient and static density 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 Static velocity?
In this formula, Static velocity uses Shear Stress, Local skin-friction coefficient and static density. We can use 4 other way(s) to calculate the same, which is/are as follows -
  • Static velocity=Local heat transfer rate/(Stanton Number*static density*(Adiabatic wall enthalpy-Wall enthalpy))
  • Static velocity=Local heat transfer rate/(static density*Stanton Number*(Adiabatic wall enthalpy-Wall enthalpy))
  • Static velocity=(Transition Reynolds number*static viscosity)/(static density*Location transition point)
  • Static velocity=(Reynolds number using chord length*static viscosity)/(static density*Chord Length)
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