2400 Fluids, General 



.Friction of fluids against solids. Chaudy, F. 



Par. Ing. Civ. Mm. (1896) (Pt. 2) 24-. 

 Hydrodynamic, electric and thermic analogies. 



Decharme, C. [1884] Amiens Ac. Mm. 33 



(1888) 50-. 



imitation of electrochemical rings. De- 

 charme, C. [1884] Amiens Ac. Mm. 32 

 (1887) 1-. 



theory of Fleck on river contamination. 

 Hajnis, . Dingier 254 (1884) 1-. 



Hydrodynamics. Mainardi, G. [1844] Mod. 



S. It. Mm. 23 (1846) 175-. 

 . Brillmiin, M. Toul. Fac. Sc. A. 1 (1887) 



80pp. 



and kinetic theory of gases. Boltzmann, L. 

 B. A. Ep. (1894) 579. 



, recent progress. Hicks, W. M. B. A. Bp. 



(1881)57-; (1882)39-. 

 , . Brown, E. W. Am. As. P. (1898) 



53. 

 , transformation of fundamental equations. 



Pad, P. Mil. I. Lomb. Ed. 13 (1880) 



209-. 

 Internal pressure and virial of internal forces in 



fluids. Amagat, E. H. Par. S. Ps. Se. 



(1895) 62-. 

 Level, theory. Roller, M. W. Briinn Vh. 3 



(1864) (Ab.) 46-. 

 Material work, conformity to law. Vdvra, A. 



Prag Sb. (1886) (Mth.-Nt.) 237-. 

 Molecular mechanics, problems. Piola, G. 



Mod. Mm. S. It. 21 (1836) 155-. 

 Motion and equilibrium of fluids, solids and 



elastic bodies, general equations. Poisson, 



S. D. [1829] Par. EC. Pol. J. 20" cah. 



(1831) 1-. 

 and solids, elastic or inelastic. 



Navier, C. L. M. H. Par. S. Phlm. Bll. 



(1823) 36-. 

 , general law. Wertheim, G. 



Wien SB. (1850) (Ab. 2) 19-. 



of fluids and equilibrium of elastic bodies, 

 integration of equations. Popov, A. T. (xn) 

 Kazan Un. Mm. (1852) (Bk. 4) 35- ; (iv) St. 

 Pet. Ac. Sc. Bll. 13 (1855) 145-. 



, study by chronophotography. Marey, 



. Par. S. Ps. Se. (1893) 243-. 

 , internal, and equilibrium of solids or fluids, 



elastic or non-elastic. Cauchy, A. L. Par. 



S. Phlm. Bll. (1823) 9-. 

 , , , equations for. 



Cauchy, A. L. Ferussac Bll. Sc. Mth. 13 



(1830) 169-. 



and rest of fluids. Sylvester, J. J. Ph. Mg. 

 13 (1838) 449- ; 14 (1839) 188-. 



Movement of ice divide during melting of inland 



ice. Schittz,O.E. N. Mg. Ntvd. 34 (1895) 



102-. 

 Eigidity of liquids. Schwedoff, T. [1889-1900] 



Par. S. Ps. Se. (1889) 122; Sc. Abs. 4 (1901) 



353. 

 Submerged bodies, instrument for raising 



("Water needle"). Mallet, R. Ir. I. CE. T. 



1 (1845) 62-. 



, methods of raising. Castillon, . 

 Maurice PV. S. H. Nt. (1846) 103-. 



Statics of Fluids 2410 



2410 Statics of fluids. 



ARCHIMEDES' PRINCIPLE. 



Correnti, A. Sperim. 26 (1870) 316- . 

 apparent exception to. Correnti, A. Sperim. 



25 (1870) 550-. 

 and its connexion with Hippocrates' law. 



Fischer, F. W. [1880] Arch. Mth. Ps. 66 



(1881) 337-. 

 demonstration. Sire, G. [1866] (xn) Doubs 



S. Mm. 2 (1867) 1-. 

 . Berthaud, . [1867] (xn) Doubs S. 



Mm. 3 (1868) 38-. 

 . Sire, G. A. C. 2 (1874) 253-. 

 . Boudreaux, . J. de Ps. 4 (1875) 85-. 



for gases. Terquem, A. J. de Ps. 2 (1883) 

 29-. 



. Metral, P. J. de Ps. 8 (1899) 215-. 



and equality of action and reaction. Mens- 



brugghe, G. van der. Brux. S. Sc. A. 22 



(1898) (Pt. 1) 48-. 

 interpretation based on perfect elasticity of. 



fluids. Mensbrugghe, G. van der. Brux. 



Ac. Bll. 35 (1898) 181-. 



CENTRES OF PRESSURE. 



Bustelli, A.M. G. Mt. 7 (1869) 152-, 213-. 

 Lewis, T. C. [1878] Mess. Mth. 8 (1879) 49-. 

 Anderson, A. Mess. Mth. 21 (1892) 69-. 

 construction for. Minchin, G. H. Nt. 37 



(1888) 201. 

 determination for sluices of circular or elliptic 



form. Saladini, G. Mod. Mm. S. It. 11 



(1804) 147-. 

 and metacentres, etc. Lewis, T. C. [1878] 



Mess. Mth. 8 (1879) 114-. 

 in any surface. Azzarelli, M. Em. At. N. 



Line. 25 (1872) 138-. 

 theorems. Curtis, A. H. Mess. Mth. 1 (1872) 



182-. 

 of triangle and quadrilateral. Curtis, A. H. (n) 



Mess. Mth. 2 (1864) 250-. 

 . Routh, E. J. Mess. Mth. 2 



(1873) 5. 



Communication of fluids. Brunacci, V. Bru- 

 gnatelli G. 1 (1818) 275-. 



Corked flask at various depths in sea. Hertz- 

 berg, N. Mg. Ntvd. 5 (1825) 75-. 



Critical mean curvature of fluid surfaces of 

 revolution. Rucker, A.W. B. A. Ep. (1886) 

 518- ; L. Ps. S. P. 8 (1887) 108- ; Ph. Mg. 

 23 (1887) 35-. 



Drops. Worthington, A. M. Nt. 16 (1877) 

 165-. 



falling on fluids. Cima, A. N. Cim. 3 

 (1856) 386-. 



plate, forms. Worthington, A. M. 



[1876] E. S. P. 25 (1877) 261-, 498-. 



of mercury, falling. Volkmann, P. A. 

 Ps. C. 19 (1883) 66-. 



Elastic shells, cylindrical and spherical, separ- 

 ating two fluids. Cavalli, E. Ev. Un. 

 Mines 17 (1885) 503-. 



164 



