An Introduction to BiophysicsJ. & A. Churchill, 1921 - 435 Seiten |
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Seite 38
... surface will be able to proceed no farther than the walls of this space , and rebounding from these must eventually return in the direction of the liquid . Some will strike the surface of the liquid and will be retained by it . But the ...
... surface will be able to proceed no farther than the walls of this space , and rebounding from these must eventually return in the direction of the liquid . Some will strike the surface of the liquid and will be retained by it . But the ...
Seite 45
... P. Glucose , which has a molal O.P. , may be stored in the liver as glycogen - a colloid , which again readily undergoes hydrolysis to glucose . ( See Chap . VIII . , Colloids . ) CHAPTER VI THE LIBERATION OF ENERGY ( 4 ) SURFACE.
... P. Glucose , which has a molal O.P. , may be stored in the liver as glycogen - a colloid , which again readily undergoes hydrolysis to glucose . ( See Chap . VIII . , Colloids . ) CHAPTER VI THE LIBERATION OF ENERGY ( 4 ) SURFACE.
Seite 46
... surface layer , are uniform and cancel out . Consider a single internal molecule . The tractative forces acting on it may be re- solved into four components acting cyclically at ... surface area 46 LIBERATION OF ENERGY (4) SURFACE TENSION.
... surface layer , are uniform and cancel out . Consider a single internal molecule . The tractative forces acting on it may be re- solved into four components acting cyclically at ... surface area 46 LIBERATION OF ENERGY (4) SURFACE TENSION.
Seite 47
... surface . Resistance to deformation is greater on the surface than in the body of the liquid ( cf. Searle's torsion balance ) . How can this energy be utilised ? How can S.T. be either raised or lowered ? Whatever alters intrinsic ...
... surface . Resistance to deformation is greater on the surface than in the body of the liquid ( cf. Searle's torsion balance ) . How can this energy be utilised ? How can S.T. be either raised or lowered ? Whatever alters intrinsic ...
Seite 48
... surface tension than water , lower surface ten- sion when dissolved in water , and vice versa . Why this happens is not known . A plausible explanation is that of ionisation ; but if ionisation is the cause , why should weak organic ...
... surface tension than water , lower surface ten- sion when dissolved in water , and vice versa . Why this happens is not known . A plausible explanation is that of ionisation ; but if ionisation is the cause , why should weak organic ...
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A. V. Hill absorbed absorption acid action adsorption alterations amount animal arterial basilar membrane blood body bone calcium capillary carbohydrate carbon cartilage cause cell cent changes Chap chemical chloride CO₂ collodion colloidal colour concentration constant contraction corpuscles crystalloids decrease dialysing diffusion dispersed dissociation effect efficiency elastic electrical electrolytes emulsion emulsoid endosmosis enzyme external fibres fluid force gland glass glucose gram growth haemoglobin heat hydrated hydrogen ion increase ionisation kidney lactic acid layer light liquid litre lungs maltose material mechanism membrane mercury metres minute molecules movement muscle muscular negative nerve nitrogen normal organism osmotic pressure oxygen particles pass permeability phase physical physiological plasma polarisation positive potassium potential energy produced protein rays reaction result salts secretion soap sodium sodium chloride solution stapes stimulation substance surface tension suspensoids TABLE temperature thermometer tissue tube velocity ventricle vibrations viscosity volume wall