Weber Number Calculators

➤ Calculate Weber Number
➤ Calculate Surface Tension
➤ Calculate Density
➤ Calculate Velocity
➤ Calculate Length

Calculate Weber Number

`W=[ρ×V^2×L]/σ`
W = Weber Number      ρ = Density
v = Velocity      L = Length      σ = Surface Tension

Enter your values:

Density:
Velocity:
Length:
Surface Tension:

Result:

Weber Number:

Calculate Surface Tension

`σ=[ρ×V^2×L]/W`
W = Weber Number      ρ = Density
v = Velocity      L = Length      σ = Surface Tension

Enter your values:

Density:
Velocity:
Length:
Weber Number:

Result:

Surface Tension:
Newton/Meter

Calculate Density

`ρ=[W×σ]/[V^2×L]`
W = Weber Number      ρ = Density
v = Velocity      L = Length      σ = Surface Tension

Enter your values:

Weber Number:
Surface Tension:
Velocity:
Length:

Result:

Density:
Kilogram/Meter3

Calculate Velocity

`V=√[W×σ]/[L×ρ]`
W = Weber Number      ρ = Density
v = Velocity      L = Length      σ = Surface Tension

Enter your values:

Weber Number:
Surface Tension:
Density:
Length:

Result:

Velocity:
Meter/Second

Calculate Length

`L=[W×σ]/[V^2×ρ]`
W = Weber Number      ρ = Density
v = Velocity      L = Length      σ = Surface Tension

Enter your values:

Weber Number:
Surface Tension:
Density:
Velocity:

Result:

Length:
Meter

Weber number

The Weber number is a dimensionless number in fluid mechanics. It is used to analyze fluid motion when there is an interface between different fluids, especially when the curvature of the interface is large in multiphase flow.

The Weber number represents the ratio of the inertial force to the surface tension effect, and the smaller the Weber number, the more important the surface tension is, such as small-scale problems such as capillary phenomena, soap bubbles, and surface tension waves. Generally speaking, for large-scale problems, the Weber number is much greater than 1.0, and the role of surface tension can be ignored.
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