Jurin's law

Capillary rise or fall in a tube.

Jurin's law describes the rise and fall of a liquid within a thin capillary tube. Named after its discoverer James Jurin.

This law is expressed as:

 \qquad h = \frac{2\gamma \cos\theta}{r\rho g}

where

This law is valid if the tube radius is smaller than the capillary length.

See also


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