Maiarutselvan V
PSG College of Technology (PSGCT), Coimbatore
Maiarutselvan V has created this Calculator and 300+ more calculators!
Sai Venkata Phanindra Chary Arendra
Vallurupalli Nageswara Rao Vignana Jyothi Institute of Engineering and Technology (VNRVJIET), Hyderabad
Sai Venkata Phanindra Chary Arendra has verified this Calculator and 100+ more calculators!

11 Other formulas that you can solve using the same Inputs

Location of stagnation point on x-axis
distance of stagnation point=Distance from end A*sqrt((1+(strength of source/(pi*Distance from end A*uniform flow velocity)))) GO
Uniform flow velocity for stream function at a point in the combined flow
uniform flow velocity=(stream function-(strength of source/(2*pi*Angle A)))/(Distance from end A*sin(Angle A)) GO
Stream function at a point in the combined flow
stream function=(uniform flow velocity*Distance from end A*sin(Angle A))+((strength of source/(2*pi))*Angle A) GO
Uniform flow velocity for Rankine half body
uniform flow velocity=(strength of source/(2*Length y))*(1-(Angle A/pi)) GO
Dimensions of Rankine half-body
Length y=(strength of source/(2*uniform flow velocity))*(1-(Angle A/pi)) GO
Strength of source for Rankine half body
strength of source=(Length y*2*uniform flow velocity)/(1-(Angle A/pi)) GO
Distance of stagnation point S from source in flow past a half body
radial distance=strength of source/(2*pi*uniform flow velocity) GO
Radius of the Rankine circle
radius=sqrt(strength of doublet/(2*pi*uniform flow velocity)) GO
Stream function in sink flow for angle
stream function=(strength of source/(2*pi))*(angle radian) GO
Radius at any point considering radial velocity
Radius 1=strength of source/(2*pi*radial velocity) GO
Radial velocity at any radius
radial velocity=strength of source/(2*pi*Radius 1) GO

Distance between source or sink from origin Formula

Distance from end A=distance of stagnation point/sqrt((1+(strength of source/(pi*Distance from end A*uniform flow velocity))))
a=x s/sqrt((1+(q/(pi*a*U))))
More formulas
Radial velocity at any radius GO
Strength of source for radial velocity and at any radius GO
Radius at any point considering radial velocity GO
Stream function at a point GO
Strength of doublet for stream function GO
Stream function at a point in the combined flow GO
Uniform flow velocity for stream function at a point in the combined flow GO
Distance of stagnation point S from source in flow past a half body GO
Dimensions of Rankine half-body GO
Strength of source for Rankine half body GO
Uniform flow velocity for Rankine half body GO
Location of stagnation point on x-axis GO
Radius of the Rankine circle GO
Stream function in sink flow for angle GO

What is Rankine Oval body?

A Rankine oval is created by superimposing a uniform flow with a source and a sink. As the distance between the source and sink decreases to zero, the Rankine oval will become more blunt. Eventually, the shape of the Rankine oval will become a circle.

What is the characteristic of stagnation point?

At stagnation, point velocity is zero, as the fluid comes at rest. This characteristic at the stagnation point. There are two stagnation points are present in a source and sink pair in a uniform flow.

How to Calculate Distance between source or sink from origin?

Distance between source or sink from origin calculator uses Distance from end A=distance of stagnation point/sqrt((1+(strength of source/(pi*Distance from end A*uniform flow velocity)))) to calculate the Distance from end A, The Distance between source or sink from origin formula is defined from the relation of flow past a Rankine Oval body considering the distance of the stagnation point from origin O along the x-axis, the location of stagnation point. Distance from end A and is denoted by a symbol.

How to calculate Distance between source or sink from origin using this online calculator? To use this online calculator for Distance between source or sink from origin, enter distance of stagnation point (x s), strength of source (q) and uniform flow velocity (U) and hit the calculate button. Here is how the Distance between source or sink from origin calculation can be explained with given input values -> 9.844547 = 10/sqrt((1+(10/(pi*10*10)))).

FAQ

What is Distance between source or sink from origin?
The Distance between source or sink from origin formula is defined from the relation of flow past a Rankine Oval body considering the distance of the stagnation point from origin O along the x-axis, the location of stagnation point and is represented as a=x s/sqrt((1+(q/(pi*a*U)))) or Distance from end A=distance of stagnation point/sqrt((1+(strength of source/(pi*Distance from end A*uniform flow velocity)))). The distance of stagnation point is from the origin O along the x-axis, The strength of source, q is defined as the volume flow rate per unit depth of the fluid and The uniform flow velocity is considered in flow past a half body.
How to calculate Distance between source or sink from origin?
The Distance between source or sink from origin formula is defined from the relation of flow past a Rankine Oval body considering the distance of the stagnation point from origin O along the x-axis, the location of stagnation point is calculated using Distance from end A=distance of stagnation point/sqrt((1+(strength of source/(pi*Distance from end A*uniform flow velocity)))). To calculate Distance between source or sink from origin, you need distance of stagnation point (x s), strength of source (q) and uniform flow velocity (U). With our tool, you need to enter the respective value for distance of stagnation point, strength of source and uniform flow velocity and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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