The fundamental concepts concerning surface tension and capillarity

“…Shuttleworth [5] was one of the first to accept these ideas: "… In an iso tropic material, such as a liquid, the surface stress is perpendicular to every line in the surface. A direct conclusion from … experiments of capillarity by Brown [6] is that a liquid surface is in a state of plane stress … The stress in a liquid surface is known as the surface tension; in the present paper an attempt is made to widen the concept so that it can be applied to crystal faces." But, the question arises: what is the substance that might be stressed in the liquid surface?…”

“…(2) The ST and SE "are physically equivalent" [6]; they were tacitly assumed to exist at the same time [4][5][6][7][8][9]. The possibility of their mutual transforma tions has never been discussed (except the just pub lished work [12]).…”

“…In this situation no information could be obtained on SE and ST; some guesses were discussed in [5][6][7][8][9][10][11]. Following Shuttle worth [5], we mentally divide this piece "into two parts by a plane … and the two parts are separated."…”

“…Brown [6] discussed simple ideas that might sound now like new ones in application to SE and ST of liq uids and solids. For example: "… in accordance with the principle that every system moves towards a state of minimum potential energy the surface of a liquid shows a tendency to contract.…”

“…I believe that ST and SE are no more or less real than any other types of force and energy". One of Brown's opponents insisted [6]: "…I doubt whether the word "real" has any place in physics, which I take to be the science of measurable properties. If by "real" you mean measurable, and by "fiction" not measurable, then you must admit that ST of liquids is real because it is directly measurable, while SE is much more doubtful.…”

A new view of the “surface energy-surface tension” problem

“…Shuttleworth [5] was one of the first to accept these ideas: "… In an iso tropic material, such as a liquid, the surface stress is perpendicular to every line in the surface. A direct conclusion from … experiments of capillarity by Brown [6] is that a liquid surface is in a state of plane stress … The stress in a liquid surface is known as the surface tension; in the present paper an attempt is made to widen the concept so that it can be applied to crystal faces." But, the question arises: what is the substance that might be stressed in the liquid surface?…”

“…(2) The ST and SE "are physically equivalent" [6]; they were tacitly assumed to exist at the same time [4][5][6][7][8][9]. The possibility of their mutual transforma tions has never been discussed (except the just pub lished work [12]).…”

“…In this situation no information could be obtained on SE and ST; some guesses were discussed in [5][6][7][8][9][10][11]. Following Shuttle worth [5], we mentally divide this piece "into two parts by a plane … and the two parts are separated."…”

“…Brown [6] discussed simple ideas that might sound now like new ones in application to SE and ST of liq uids and solids. For example: "… in accordance with the principle that every system moves towards a state of minimum potential energy the surface of a liquid shows a tendency to contract.…”

“…I believe that ST and SE are no more or less real than any other types of force and energy". One of Brown's opponents insisted [6]: "…I doubt whether the word "real" has any place in physics, which I take to be the science of measurable properties. If by "real" you mean measurable, and by "fiction" not measurable, then you must admit that ST of liquids is real because it is directly measurable, while SE is much more doubtful.…”

A new view of the “surface energy-surface tension” problem

Elements of Surface Physics

A generalized stefan condition