An Introduction to BiophysicsJ. & A. Churchill, 1921 - 435 Seiten |
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... in various forms , yet all attempts to change other forms of energy into radio - active energy or even to influence the rate of transformation have failed . Chap . XI . ) TABLE I. MECHANICAL EQUIVALENT OF HEAT . UNITS . Tempera-
... in various forms , yet all attempts to change other forms of energy into radio - active energy or even to influence the rate of transformation have failed . Chap . XI . ) TABLE I. MECHANICAL EQUIVALENT OF HEAT . UNITS . Tempera-
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David Burns. TABLE I. MECHANICAL EQUIVALENT OF HEAT . UNITS . Tempera- ture . Time . Mass . Length . 1 ° C. Second Gram Centimetre Force . Dyne at 15 ° C. Wt . of a gram at Equiva- lent . 4.2 × 107 1 ° C. 15 ° C. at lat . of 42700 وو 99 ...
David Burns. TABLE I. MECHANICAL EQUIVALENT OF HEAT . UNITS . Tempera- ture . Time . Mass . Length . 1 ° C. Second Gram Centimetre Force . Dyne at 15 ° C. Wt . of a gram at Equiva- lent . 4.2 × 107 1 ° C. 15 ° C. at lat . of 42700 وو 99 ...
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... TABLE II . Starch = 4.191 large calories . Cane Sugar = 3.955 Maltose = 3.94 Milk Sugar ( Lactose ) = 3.95 Glucose = 3.74 Fruit Sugar ( Fructose ) = 3.75 99 99 Average values have therefore been adopted and accepted as standard . E.g. ...
... TABLE II . Starch = 4.191 large calories . Cane Sugar = 3.955 Maltose = 3.94 Milk Sugar ( Lactose ) = 3.95 Glucose = 3.74 Fruit Sugar ( Fructose ) = 3.75 99 99 Average values have therefore been adopted and accepted as standard . E.g. ...
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... TABLE III . SATURATED SERIES . CH2O2 . H - COOH - formic acid E.g. CH2O2 CH2 HCOOH - acetic acid C2H2O2 CH2 CH2 HCOOH - propionic acid C3H6O2 CH , CH , CH , HCOOH — butyric acid C1H2O2 2 ( CH2 ) 15 HCOOH - palmitic acid C16H32O2 ( CH2 ) ...
... TABLE III . SATURATED SERIES . CH2O2 . H - COOH - formic acid E.g. CH2O2 CH2 HCOOH - acetic acid C2H2O2 CH2 CH2 HCOOH - propionic acid C3H6O2 CH , CH , CH , HCOOH — butyric acid C1H2O2 2 ( CH2 ) 15 HCOOH - palmitic acid C16H32O2 ( CH2 ) ...
Seite 33
... TABLE IV . COMPARATIVE THERMAL EFFICIENCIES . Compound ( non - condensing ) 22 ( condensing ) Parson's turbine ( Petrol ( motor ) ( aero ) - Combustion - Coal gas ( stationary ) Diesel Combined I.C. ( Still engine and Steam Still ...
... TABLE IV . COMPARATIVE THERMAL EFFICIENCIES . Compound ( non - condensing ) 22 ( condensing ) Parson's turbine ( Petrol ( motor ) ( aero ) - Combustion - Coal gas ( stationary ) Diesel Combined I.C. ( Still engine and Steam Still ...
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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 kinetic 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 stimulation substance surface tension suspensoids TABLE temperature thermometer tissue tube velocity ventricle vibrations viscosity volume wall