Organism as a wholePutnam, 1916 - 379 pages |
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Page 3
... . In other words , Bernard thinks it his task to account for individual life phenomena on a purely physico- chemical basis - but the harmonious character of the organism as a whole is in his opinion not produced Introductory Remarks 3.
... . In other words , Bernard thinks it his task to account for individual life phenomena on a purely physico- chemical basis - but the harmonious character of the organism as a whole is in his opinion not produced Introductory Remarks 3.
Page 4
Jacques Loeb. organism as a whole is in his opinion not produced by the same forces and he considers it impossible and hopeless to investigate the " design . " This attitude of Bernard would be incomprehensible were it not for the fact ...
Jacques Loeb. organism as a whole is in his opinion not produced by the same forces and he considers it impossible and hopeless to investigate the " design . " This attitude of Bernard would be incomprehensible were it not for the fact ...
Page 20
... producing sugar and starch from CO , without the aid of chloro- phyll . Similar observations were made by Beijerinck on a species of fresh - water bacteria . ' I Finally the case of iron bacteria may briefly be mentioned though ...
... producing sugar and starch from CO , without the aid of chloro- phyll . Similar observations were made by Beijerinck on a species of fresh - water bacteria . ' I Finally the case of iron bacteria may briefly be mentioned though ...
Page 21
... produce that compound from the CO , of the air by the activity of its chlorophyll . This organism possesses also the power of assimilating the free nitrogen of the air . From these observations and because the Nostocaceae generally ...
... produce that compound from the CO , of the air by the activity of its chlorophyll . This organism possesses also the power of assimilating the free nitrogen of the air . From these observations and because the Nostocaceae generally ...
Page 34
... produced by light waves- the radiation pressure can overcome the attractive force of gravitation . Bodies which according to Schwarzschild would undergo the strongest influence of solar radiation must have a dia- meter of 0.00016 mm ...
... produced by light waves- the radiation pressure can overcome the attractive force of gravitation . Bodies which according to Schwarzschild would undergo the strongest influence of solar radiation must have a dia- meter of 0.00016 mm ...
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agglutination animals annelids Arbacia Arch artificial membrane artificial parthenogenesis assumption bacteria Biol blastomeres blood body butyric acid cell division chapter characters chemical chromosome concentration contained cortical layer cytolysis definite determined digestion disintegration Driesch effect egg of purpuratus embryo enter the egg Entwcklngsmech enzyme existence experiments eyes f. d. ges fact female fertilized fish foreign species franciscanus frog Fundulus genus give rise graft groups grow growth heliotropic hemoglobin heredity hermaphroditic hybrids hypertonic solution idea induce Jour lack of oxygen large number larvæ latter light Lillie lipoids living matter Loeb male Mendelian heredity normal sea water nucleus observed ovaries oxidations parthenogenesis permeability phenomena phenomenon physicochemical Physiol pigment plants polyp positively heliotropic possible produced proteins protoplasm pure reaction regeneration result rôle salts sea urchin sea water sea-urchin egg segment serum shown sperm spermatozoön spermatozoön enters starfish Strongylocentrotus substances synthesis theory tion tissue transplanted unfertilized egg Wasteneys X chromosome