A Text-book of PhysicsLongmans, Green, and Company, 1902 - 951 páginas |
Dentro del libro
Resultados 1-5 de 30
Página x
... Surface tension . 158 * . Pressure within a soap - bubble . 159. Angle of contact . 160. Capillarity . 161. Phenomena due to sur- face tension . 162 * . Viscosity . 163. Solution . 164. Diffusion of liquids . 165. Osmosis . CHAPTER XIX ...
... Surface tension . 158 * . Pressure within a soap - bubble . 159. Angle of contact . 160. Capillarity . 161. Phenomena due to sur- face tension . 162 * . Viscosity . 163. Solution . 164. Diffusion of liquids . 165. Osmosis . CHAPTER XIX ...
Página xviii
... surface . 460. Tension along the tubes of force . 461. Dielectrics other than air . 462 * . Force exerted between two small charged bodies when surrounded by a dielectric other than air . 463 * . Parallel plate condenser in which the ...
... surface . 460. Tension along the tubes of force . 461. Dielectrics other than air . 462 * . Force exerted between two small charged bodies when surrounded by a dielectric other than air . 463 * . Parallel plate condenser in which the ...
Página 189
... Surface Tension . - In the case of the globule of oil floating in a liquid of the same density , the shape assumed is the same as the oil would take had it been enclosed in an elastic membrane or skin . The presence of such an elastic ...
... Surface Tension . - In the case of the globule of oil floating in a liquid of the same density , the shape assumed is the same as the oil would take had it been enclosed in an elastic membrane or skin . The presence of such an elastic ...
Página 190
... surface of the liquid , E F , that the sphere would Fig . 130 . F intersect the surface , then the attraction ... tension of the liquid . The magnitude of the pressure due to the surface tension depends on the form of the liquid surface ...
... surface of the liquid , E F , that the sphere would Fig . 130 . F intersect the surface , then the attraction ... tension of the liquid . The magnitude of the pressure due to the surface tension depends on the form of the liquid surface ...
Página 191
William Watson. below the surface as is A , where the surface is plane , the shaded part is less , so that the molecular force acting on B towards the inside of the liquid is ... surface tension is 277 , where / § 157 ] 191 Surface Tension.
William Watson. below the surface as is A , where the surface is plane , the shaded part is less , so that the molecular force acting on B towards the inside of the liquid is ... surface tension is 277 , where / § 157 ] 191 Surface Tension.
Contenido
448 | |
474 | |
486 | |
506 | |
512 | |
522 | |
556 | |
570 | |
128 | |
140 | |
149 | |
177 | |
189 | |
201 | |
206 | |
232 | |
244 | |
265 | |
290 | |
297 | |
301 | |
308 | |
310 | |
346 | |
364 | |
372 | |
373 | |
381 | |
390 | |
419 | |
431 | |
444 | |
577 | |
579 | |
596 | |
616 | |
631 | |
637 | |
651 | |
663 | |
672 | |
681 | |
696 | |
710 | |
724 | |
745 | |
756 | |
769 | |
796 | |
834 | |
847 | |
860 | |
876 | |
897 | |
941 | |
Términos y frases comunes
amplitude angle of incidence axis Boyle's law called calorimeter carbon dioxide centimetre Charles's laws circle coefficient colours column constant convex lens corresponding curvature curve cylinder density direction displacement distance equal equation force acting fork frequency gases given glass Hence horizontal hydrogen incident increase interval kinetic energy length lens light liquid magnet mass measured medium mercury mirror molecules motion moving object obtained octave overtones parallel particle pass pendulum perpendicular piston plane plate pole portion position pressure prism produced quantity of heat radiation radius ratio reflected rays refracted ray refractive index represent resonator right angles rotation scale shown in Fig solid sound-waves sounding body specific heat sphere straight line string substance suppose surface tension T₁ temperature tion tone tube unit vapour velocity of sound vertical vessel vibrations volume wave-front wave-length waves weight
Pasajes populares
Página 580 - When a ray of light passes from one medium to another, it is refracted so that the ratio of the sine of the angle of incidence to the sine of the angle of refraction is equal to the ratio of the velocities in the two media.