The London, Edinburgh and Dublin Philosophical Magazine and Journal of ScienceTaylor & Francis, 1891 |
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Page 49
... Pressure in the Approximate Theory . The pressure at any point of a liquid in steady irrotational motion is given by the equation p = constant - pq2 —g ~ , ( 19 ) where P and p are the pressure and density respectively . Over the free ...
... Pressure in the Approximate Theory . The pressure at any point of a liquid in steady irrotational motion is given by the equation p = constant - pq2 —g ~ , ( 19 ) where P and p are the pressure and density respectively . Over the free ...
Page 194
... pressure at the end RS . Thus in the space around the excited pole P , the pressure of the magne- tized air varies from point to point , and therefore the assump- tion ( a ) cannot be correct . The explanations ( a ) and ( b ) must ...
... pressure at the end RS . Thus in the space around the excited pole P , the pressure of the magne- tized air varies from point to point , and therefore the assump- tion ( a ) cannot be correct . The explanations ( a ) and ( b ) must ...
Page 195
... pressure to be uniform over each of these faces . Then if the pressure of the air on the face Y exceed that on the face Z by the 1000th part of an atmo , the resultant pressure tending to drive M away from P will be rather over 1 gramme ...
... pressure to be uniform over each of these faces . Then if the pressure of the air on the face Y exceed that on the face Z by the 1000th part of an atmo , the resultant pressure tending to drive M away from P will be rather over 1 gramme ...
Contents
FIFTH SERIES | 1 |
JULY 1891 | 17 |
Mr S T Preston on an Acoustic Thermometera Suggestion | 58 |
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action allotropic atoms B.A. units bismuth body bulb c.c. of water calculated cent centim centimetres charges chemical chlorine circuit coefficient coil constant curve deflexion density diamagnetism diluted direction discharge dissociation distance effect elastic electricity electrolyte electromotive force energy equal equation error experimental experiments formula galvanometer give given hydrochloric acid hydrogen increase intensity ions J. J. Thomson latent heat length liquid Lupton magnetic force magnetic leakage mathematical Mean E.M.F. measured mercury metal method molecules motion negative node observed obtained paper Phil Pisati plate platinum pole position potential pressure primary quantity ratio reflector resistance rigidity salt secondary silver solid solitary wave solution strain substance sulphuric acid supposed surface Table temperature theory thermometer tion Tomlinson tube values vector potential velocity vibration Volts wave wave-length wire Young's modulus zero zinc