a history of science-2-第39章

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　the　advantage　of　public　or　semi…public　laboratories；　where　they　were　brought　into　contact　with　other　men；　from　whom　to　gather　fresh　trains　of　thought　and　receive　the　stimulus　of　their　successes　or　failures。　In　the　natural　course　of　events；　however；　neighbors　who　were　interested　in　somewhat　similar　pursuits；　not　of　the　character　of　the　rivalry　of　trade　or　commerce；　would　meet　more　or　less　frequently　and　discuss　their　progress。　The　mutual　advantages　of　such　intercourse　would　be　at　once　appreciated；　and　it　would　be　but　a　short　step　from　the　casual　meeting　of　two　neighborly　scientists　to　the　establishment　of　〃societies；〃　meeting　at　fixed　times；　and　composed　of　members　living　within　reasonable　travelling　distance。　There　would；　perhaps；　be　the　weekly　or　monthly　meetings　of　men　in　a　limited　area；　and　as　the　natural　outgrowth　of　these　little　local　societies；　with　frequent　meetings；　would　come　the　formation　of　larger　societies；　meeting　less　often；　where　members　travelled　a　considerable　distance　to　attend。　And；　finally；　with　increased　facilities　for　communication　and　travel；　the　great　international　societies　of　to…day　would　be　producedthe　natural　outcome　of　the　neighborly　meetings　of　the　primitive　mediaeval　investigators。　In　Italy；　at　about　the　time　of　Galileo；　several　small　societies　were　formed。　One　of　the　most　important　of　these　was　the　Lyncean　Society；　founded　about　the　year　1611；　Galileo　himself　being　a　member。　This　society　was　succeeded　by　the　Accademia　del　Cimento；　at　Florence；　in　1657；　which　for　a　time　flourished；　with　such　a　famous　scientist　as　Torricelli　as　one　of　its　members。　In　England　an　impetus　seems　to　have　been　given　by　Sir　Francis　Bacon's　writings　in　criticism　and　censure　of　the　systern　of　teaching　in　colleges。　It　is　supposed　that　his　suggestions　as　to　what　should　be　the　aims　of　a　scientific　society　led　eventually　to　the　establishment　of　the　Royal　Society。　He　pointed　out　how　little　had　really　been　accomplished　by　the　existing　institutions　of　learning　in　advancing　science；　and　asserted　that　little　good　could　ever　come　from　them　while　their　methods　of　teaching　remained　unchanged。　He　contended　that　the　system　which　made　the　lectures　and　exercises　of　such　a　nature　that　no　deviation　from　the　established　routine　could　be　thought　of　was　pernicious。　But　he　showed　that　if　any　teacher　had　the　temerity　to　turn　from　the　traditional　paths；　the　daring　pioneer　was　likely　to　find　insurmountable　obstacles　placed　in　the　way　of　his　advancement。　The　studies　were　〃imprisoned〃　within　the　limits　of　a　certain　set　of　authors；　and　originality　in　thought　or　teaching　was　to　be　neither　contemplated　nor　tolerated。　The　words　of　Bacon；　given　in　strong　and　unsparing　terms　of　censure　and　condemnation；　but　nevertheless　with　perfect　justification；　soon　bore　fruit。　As　early　as　the　year　1645　a　small　company　of　scientists　had　been　in　the　habit　of　meeting　at　some　place　in　London　to　discuss　philosophical　and　scientific　subjects　for　mental　advancement。　In　1648；　owing　to　the　political　disturbances　of　the　time；　some　of　the　members　of　these　meetings　removed　to　Oxford；　among　them　Boyle；　Wallis；　and　Wren；　where　the　meetings　were　continued；　as　were　also　the　meetings　of　those　left　in　London。　In　1662；　however；　when　the　political　situation　bad　become　more　settled；　these　two　bodies　of　men　were　united　under　a　charter　from　Charles　II。；　and　Bacon's　ideas　were　practically　expressed　in　that　learned　body；　the　Royal　Society　of　London。　And　it　matters　little　that　in　some　respects　Bacon's　views　were　not　followed　in　the　practical　workings　of　the　society；　or　that　the　division　of　labor　in　the　early　stages　was　somewhat　different　than　at　present。　The　aim　of　the　society　has　always　been　one　for　the　advancement　of　learning；　and　if　Bacon　himself　could　look　over　its　records；　he　would　surely　have　little　fault　to　find　with　the　aid　it　has　given　in　carrying　out　his　ideas　for　the　promulgation　of　useful　knowledge。　Ten　years　after　the　charter　was　granted　to　the　Royal　Society　of　London；　Lord　Bacon's　words　took　practical　effect　in　Germany；　with　the　result　that　the　Academia　Naturae　Curiosorum　was　founded；　under　the　leadership　of　Professor　J。　C。　Sturm。　The　early　labors　of　this　society　were　devoted　to　a　repetition　of　the　most　notable　experiments　of　the　time；　and　the　work　of　the　embryo　society　was　published　in　two　volumes；　in　1672　and　1685　respectively；　which　were　practically　text…books　of　the　physics　of　the　period。　It　was　not　until　1700　that　Frederick　I。　founded　the　Royal　Academy　of　Sciences　at　Berlin；　after　the　elaborate　plan　of　Leibnitz；　who　was　himself　the　first　president。　Perhaps　the　nearest　realization　of　Bacon's　ideal；　however；　is　in　the　Royal　Academy　of　Sciences　at　Paris；　which　was　founded　in　1666　under　the　administration　of　Colbert；　during　the　reign　of　Louis　XIV。　This　institution　not　only　recognized　independent　members；　but　had　besides　twenty　pensionnaires　who　received　salaries　from　the　government。　In　this　way　a　select　body　of　scientists　were　enabled　to　pursue　their　investigations　without　being　obliged　to　〃give　thought　to　the　morrow〃　for　their　sustenance。　In　return　they　were　to　furnish　the　meetings　with　scientific　memoirs；　and　once　a　year　give　an　account　of　the　work　they　were　engaged　upon。　Thus　a　certain　number　of　the　brightest　minds　were　encouraged　to　devote　their　entire　time　to　scientific　research；　〃delivered　alike　from　the　temptations　of　wealth　or　the　embarrassments　of　poverty。〃　That　such　a　plan　works　well　is　amply　attested　by　the　results　emanating　from　the　French　academy。　Pensionnaires　in　various　branches　of　science；　however；　either　paid　by　the　state　or　by　learned　societies；　are　no　longer　confined　to　France。　Among　the　other　early　scientific　societies　was　the　Imperial　Academy　of　Sciences　at　St。　Petersburg；　projected　by　Peter　the　Great；　and　established　by　his　widow；　Catharine　I。；　in　1725；　and　also　the　Royal　Swedish　Academy；　incorporated　in　1781；　and　counting　among　its　early　members　such　men　as　the　celebrated　Linnaeus。　But　after　the　first　impulse　had　resulted　in　a　few　learned　societies；　their　manifest　advantage　was　so　evident　that　additional　numbers　increased　rapidly；　until　at　present　almost　every　branch　of　every　science　is　represented　by　more　or　less　important　bodies；　and　these　are；　individually　and　collectively；　adding　to　knowledge　and　stimulating　interest　in　the　many　fields　of　science；　thus　vindicating　Lord　Bacon's　asseverations　that　knowledge　could　be　satisfactorily　promulgated　in　this　manner。

X。　THE　SUCCESSORS　OF　GALILEO　IN　PHYSICAL　SCIENCE　We　have　now　to　witness　the　diversified　efforts　of　a　company　of　men　who；　working　for　the　most　part　independently；　greatly　added　to　the　data　of　the　physical　sciencessuch　men　as　Boyle；　Huygens；　Von　Gericke；　and　Hooke。　It　will　be　found　that　the　studies　of　these　men　covered　the　whole　field　of　physical　sciences　as　then　understoodthe　field　of　so…called　natural　philosophy。　We　shall　best　treat　these　successors　of　Galileo　and　precursors　of　Newton　somewhat　biographically；　pointing　out　the　correspondences　and　differences　between　their　various　accomplishments　as　we　proceed。　It　will　be　noted　in　due　course　that　the　work　of　some　of　them　was　anticipatory　of　great　achievements　of　a　later　century。

ROBERT　BOYLE　（1627…1691）　Some　of　Robert　Boyle's　views　as　to　the　possible　structure　of　atmospheric　air　will　be　considered　a　little　farther　on　in　this　chapter；　but　for　the　moment　we　will　take　up　the　consideration　of　some　of　his　experiments　upon　that　as　well　as　other　gases。　Boyle　was　always　much　interested　in　alchemy；　and　carried　on　extensive　experiments　in　attempting　to　accomplish　the　transmutation　of　metals；　but　he　did　not　confine　himself　to　these　experiments；　devoting　himself　to　researches　in　all　the　fields　of　natural　philosophy。　He　was　associated　at　Oxford　with　a　company　of　scientists；　including　Wallis　and　Wren；　who　held　meetings　and　made　experiments　together；　these　gatherings　being　the　beginning；　as　mentioned　a　moment　ago；　of　what　finally　became　the　Royal　Society。　It　was　during　this　residence　at　Oxford　that　many　of　his　valuable　researches　upon　air　were　made；　and　during　this　time　be　invented　his　air…pump；　now　exhibited　in　the　Royal　Society　rooms　at　Burlington　House。＇1＇　His　experiments　to　prove　the　atmospheric　pressure　are　most　interesting　and　conclusive。　〃Having　three　small；　ro