Sanjay Krishna
Amrita School of Engineering (ASE), Vallikavu
Sanjay Krishna has created this Calculator and 300+ 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

Heat Loss due to Pipe
Heat Loss due to Pipe=(Force*Length*Fluid Velocity^2)/(2*Diameter *Acceleration Due To Gravity) GO
Reynolds Number for Circular Tubes
Reynolds Number=Density*Fluid Velocity*Diameter /Dynamic viscosity GO
Perimeter of a Semicircle when circumference of circle is given
Perimeter=(Circumference of Circle/2)+Diameter GO
Diameter of circumscribing sphere when diameter and height of circumscribed cylinder is known
Diameter of Sphere=sqrt(Diameter ^2+Height^2) GO
Cutting Speed
Cutting Speed=pi*Diameter *Angular Speed GO
Area of a Circle when diameter is given
Area of Circle=(pi/4)*Diameter ^2 GO
Perimeter of a quarter circle when diameter is given
Perimeter=Diameter *((pi/4)+1) GO
Perimeter of a Semicircle when diameter is given
Perimeter=Diameter *((pi/2)+1) GO
Area of a quarter circle when diameter is given
Area=(pi*(Diameter )^2)/16 GO
Area of a Semicircle when diameter is given
Area=(pi*(Diameter )^2)/8 GO
Radius of a circle when diameter is given
Radius=Diameter /2 GO

6 Other formulas that calculate the same Output

Location of stagnation point outside the cylinder for lifting flow
Radial coordinate=(Vortex strength/(4*pi*Freestream Velocity))+sqrt((Vortex strength/(4*pi*Freestream Velocity))^2-Cylinder Radius^2) GO
Radial coordinate of blunt slab blast wave
Radial coordinate=0.794*Diameter *(Drag Coefficient^(1/3))*((Distance from X-axis/Diameter )^(2/3)) GO
Modified Radial coordinate equation for cylindrical blast wave
Radial coordinate=0.792*Diameter *(Drag Coefficient^(1/4))*sqrt(Distance from X-axis/Diameter ) GO
Blunt-nosed radial coordinate flat plate (first approximation):
Radial coordinate=0.774*(Drag Coefficient^(1/3))*((Distance from X-axis/Diameter )^(2/3)) GO
Radial coordinate for the planar blast wave,
Radial coordinate=((Energy/Freestream density)^(1/3))*(Time^(2/3)) GO
Radial coordinate of cylindrical blast wave
Radial coordinate=((Energy/Freestream density)^(1/4))*(Time^(1/2)) GO

Radial coordinate of Blunt-nosed cylinder (first approximation): Formula

Radial coordinate=0.795*Diameter *(Drag Coefficient^(1/4))*((Distance from X-axis/Diameter )^(1/2))
r=0.795*d*(C<sub>D</sub>^(1/4))*((y/d)^(1/2))
More formulas
Forces acting on body along the flight path GO
Forces acting Perpendicular to the body on the flight path GO
Blunt-nosed radial coordinate flat plate (first approximation): GO
Pressure ratio of Blunt-nosed cylinder (first approximation): GO
Radius of curvature for the sphere-cone body shape GO
Radius of curvature for the cylinder-wedge GO
Radius for the sphere-cone body shape GO
Radius for the cylinder-wedge body shape GO

What is blast wave?

In fluid dynamics, a blast wave is the increased pressure and flow resulting from the deposition of a large amount of energy in a small, very localised volume.

How to Calculate Radial coordinate of Blunt-nosed cylinder (first approximation):?

Radial coordinate of Blunt-nosed cylinder (first approximation): calculator uses Radial coordinate=0.795*Diameter *(Drag Coefficient^(1/4))*((Distance from X-axis/Diameter )^(1/2)) to calculate the Radial coordinate, The Radial coordinate of Blunt-nosed cylinder (first approximation): formula is defined as interrelation between drag coefficient, distance from the tip of the slab and base diameter. Radial coordinate and is denoted by r symbol.

How to calculate Radial coordinate of Blunt-nosed cylinder (first approximation): using this online calculator? To use this online calculator for Radial coordinate of Blunt-nosed cylinder (first approximation):, enter Diameter (d), Drag Coefficient (CD) and Distance from X-axis (y) and hit the calculate button. Here is how the Radial coordinate of Blunt-nosed cylinder (first approximation): calculation can be explained with given input values -> 0.795 = 0.795*10*(100^(1/4))*((0.01/10)^(1/2)).

FAQ

What is Radial coordinate of Blunt-nosed cylinder (first approximation):?
The Radial coordinate of Blunt-nosed cylinder (first approximation): formula is defined as interrelation between drag coefficient, distance from the tip of the slab and base diameter and is represented as r=0.795*d*(CD^(1/4))*((y/d)^(1/2)) or Radial coordinate=0.795*Diameter *(Drag Coefficient^(1/4))*((Distance from X-axis/Diameter )^(1/2)). Diameter is a straight line passing from side to side through the center of a body or figure, especially a circle or sphere, 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 and Distance from X-axis is defined as the distance from the point where stress is to be computed to XX axis.
How to calculate Radial coordinate of Blunt-nosed cylinder (first approximation):?
The Radial coordinate of Blunt-nosed cylinder (first approximation): formula is defined as interrelation between drag coefficient, distance from the tip of the slab and base diameter is calculated using Radial coordinate=0.795*Diameter *(Drag Coefficient^(1/4))*((Distance from X-axis/Diameter )^(1/2)). To calculate Radial coordinate of Blunt-nosed cylinder (first approximation):, you need Diameter (d), Drag Coefficient (CD) and Distance from X-axis (y). With our tool, you need to enter the respective value for Diameter , Drag Coefficient and Distance from X-axis 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 Radial coordinate?
In this formula, Radial coordinate uses Diameter , Drag Coefficient and Distance from X-axis. We can use 6 other way(s) to calculate the same, which is/are as follows -
  • Radial coordinate=((Energy/Freestream density)^(1/4))*(Time^(1/2))
  • Radial coordinate=((Energy/Freestream density)^(1/3))*(Time^(2/3))
  • Radial coordinate=0.792*Diameter *(Drag Coefficient^(1/4))*sqrt(Distance from X-axis/Diameter )
  • Radial coordinate=0.794*Diameter *(Drag Coefficient^(1/3))*((Distance from X-axis/Diameter )^(2/3))
  • Radial coordinate=0.774*(Drag Coefficient^(1/3))*((Distance from X-axis/Diameter )^(2/3))
  • Radial coordinate=(Vortex strength/(4*pi*Freestream Velocity))+sqrt((Vortex strength/(4*pi*Freestream Velocity))^2-Cylinder Radius^2)
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