An Introduction to BiophysicsJ. & A. Churchill, 1921 - 435 Seiten |
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Seite 7
... resistance that prevents the weight from falling must be overcome , i.e. the string severed . ( 2 ) The explosive must be fired or detonated . ( 3 ) The fuel must reach ignition temperature . ( 4 ) The sleeper must be awaked . In 1882 ...
... resistance that prevents the weight from falling must be overcome , i.e. the string severed . ( 2 ) The explosive must be fired or detonated . ( 3 ) The fuel must reach ignition temperature . ( 4 ) The sleeper must be awaked . In 1882 ...
Seite 9
... resistance . This is known as the " Law of Least Action " or the " Principle of Le Chatelier . " It is a law common to all sciences , and is considered by some to be a universal principle . Physicists tell us that bodies remain in a ...
... resistance . This is known as the " Law of Least Action " or the " Principle of Le Chatelier . " It is a law common to all sciences , and is considered by some to be a universal principle . Physicists tell us that bodies remain in a ...
Seite 10
... resistance to the prevailing wind . Other examples might be drawn from the sciences of physiology , economics , psychology and ethics . Physiology . The introduction of an irritating substance into the alimentary canal causes vomiting ...
... resistance to the prevailing wind . Other examples might be drawn from the sciences of physiology , economics , psychology and ethics . Physiology . The introduction of an irritating substance into the alimentary canal causes vomiting ...
Seite 45
... resistance of the solution to a small electric current ( conductivity method ) , or it may be approximately calculated from the lowering of the freezing point . ( For univalent strong electrolytes at concentrations not exceed- ing 0.1 ...
... resistance of the solution to a small electric current ( conductivity method ) , or it may be approximately calculated from the lowering of the freezing point . ( For univalent strong electrolytes at concentrations not exceed- ing 0.1 ...
Seite 47
... 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 pressure will ...
... 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 pressure will ...
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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