Index:Collected Physical Papers.djvu

Double refraction of visible light by crystals—Depolarisation—Apparatus for polarisation of the electric ray—Radiator emitting short electric waves—Parallel beam of electric radiation—Polariser and Analyser—The Spiral-Spring Receiver—Polarising crystals for the electric ray—Action of Tourmaline

Transparency to electric radiation of crystals opaque to light—Polariser, analyser and crystal holder—Dependence of sensitiveness of receiver on the applied E. M. F.—Polarising action of Serpentine, Satin Spar, Tourmaline and Nemalite—Selective transparency for polarised ray—Polarising action of vegetable fibres of Agave, Boehmeria nivea, Ananus sativus and Musa paradisiaca—The jute cell polariser and analyser

Effect due to unequal expansion—Effect due to compression—Polarisation produced by stratified rocks—Effects of rotation of plane of stratification through 360°

Index of refraction for opaque substances—Unsuitability of the prism method—Advantages of the method of total reflection—Method of a single semi-cylinder—Method of two semi-cylinders separated by parallel air-space—Method of repetition

Relation between dielectric constant and refractive index—Advantages of short electric waves in determination of the index—The Null Method—Determination of index by method of single semi-cylinder—Method of double semi-cylinder separated by parallel air-space—Refraction from glass into air—Refraction from air into glass—Index of refraction of glass for electric ray and for visible light

Factors in modification of minimum thickness of air-space for total reflection—Influence of the angle of incidence—The influence of wave length—Two right-angled prisms separated by air-space—Minimum thickness for total reflection—Effect of diminution of air-space on total reflection—Partial reflection and transmission complementary to each other—Effect of interposition of a retracting plate in air-space—Wave length of radiation and minimum thickness of totally reflecting air-space—Relation between reflected and transmitted components under diminution of thickness of air-space

Relation between critical angle and index of retraction—Determination of the index for liquids—The Refractometer—Successive total reflections during rotation of double semi-cylinders with interposed air-film—The method of repetition—Interference bands preceding total reflection—Index of refraction for distilled water—Variation of index with different strengths of solution—Effect of variation of temperature on the index—Determination of the indices for different rays and the dispersive power—Lecture demonstration

Selective transparency for polarised electric ray—Double absorption exhibited by Nemalite, Chrysotile, Satin spar and Epidote—Relation between double absorption and double conductivity—Selective transparency exhibited by ordinary books—The book form of Polariser and Analyser

Production of mechanical waves—Oscillatory electric discharge—Failure of oscillatory discharge by disintegrating action of sparks remedied by platinum coating—Electric radiation from a single spark—Magnetic disturbance screened by soft-iron cover—Stray radiation and reflection from the body of the observer—Advantages of short electric waves—Spiral spring and single contact receivers—Enhancement of sensibility by adjustment of E. M. F.—Nickel, aluminium and magnesium receivers—Portable radiation apparatus—Selective absorption—Transparency of liquid air—Varification of the laws of reflection—Opacity due to multiple reflection and refraction—Total reflection by right-angled glass prism—Determination of index of refraction by method of total reflection—Double refraction of the electric ray by crystals belonging to Tetragonal, Orthorhombic, Hexagonal, Monoclinic and Triclinic systems—Double refraction by strained dielectric—Phenomenon of double absorption—Electric tourmalines—Anisotropic conductivity of polarising substances—'Bradshaw' as a polariser

The book form of Polariser and Analyser—No polarisation by a jute-bundle when its length is parallel to the electric ray—Rotation of plane of polarisation by twisted jute-bundle—Rotating elements, positive and negative—Electro-optic analogue of dextrose and levulose—Neutralisation by mixture of equal numbers of positive and negative elements

Production of dark cross by salicine interposed between crossed Nicols—Production of cross in the dark field of electric radiation by interposition of circular structures—Action of paper disc—Ring systems in woody stems—Production of dark cross by wood and stalactite

Response of Potassium receiver by increase of electric resistance followed by automatic recovery—Response of Sodium and Lithium—Response of metals of alkaline earth—Magnesium, Zinc, and Cadmium—Bismuth and Antimony—Iron and allied metals—Tin, Lead and Thallium—Molybdenum and Uranium—Metals of Platinum group—Copper, Gold and Silver—Untenability of the theory of coherence

Action of ether-waves in modification of molecular structure—Positive and negative responses exhibited by two different classes of substance—Non-discriminative mass action and discriminative molecular action—Change of sign of response under sub-minimal stimulation—Opposite responses under feeble and moderate stimulations in Arsenic and Osmium receivers—Molecular change induced by electric radiation—Allotropic modification under visible radiation—Allotropic changes attended by variation of electric conductivity—The radiation product—Two varieties of Silver—Electrical reversal—Radio-molecular oscillation—Positive and negative variation of conductivity in two different classes of fatigued substances—Restoration of original conductivity by heat and by mechanical vibration

Conductivity variation induced by electric radiation—Modification of response by (a) previous history (b) by change of temperature and (c) by increased pressure of contact—Recording Apparatus for Conductivity and for Electromotive variation—Transition of a Molecular Receiver from Non-recovering to Self-recovering condition—Self-recovering and metrical receivers of positive and negative types—Phosphorescence and Thermo-luminescence—Maximum effect under continuous radiation—Relation between intensity of radiation and induced conductivity variation—Fatigue and reversal in Ag and Fe₃O₄ receivers under continued radiation—Electromotive response of Mg receiver under electric radiation—Electromotive response of AgBr cell under light—Fatigue and reversal exhibited by AgBr cell under continued action of light

Conductivity variation under mechanical strain—Variation of resistance of surface contacts under electric radiation—Electromotive variation under photic and mechanical stimulation—The Strain Cell—Response to torsional stimulation—Self-recovery—Response independent of direction of torsion—Response to single stimulation—Increasing response under increasing amplitude of torsional vibration—Summated effect of stimuli—Opposite sign of response under subminimal stimulation—Reversal under continuous stimulation—Molecular response common to electric radiation, light and mechanical vibration—Stimulation by light balanced by mechanical stimulation

Photographic effect essentially due to molecular action—Difficulty in detection of minute induced change—Primary and secondary reactions—Chemical and physical theories—Relapse of image due to self-recovery—Permanence of after-effect by overstrain—Curve of electromotive variation under light—Preliminary negative twitch preceding normal action—Recurrent reversals under mechanical stimulation—Photo-chemical induction—Effect of intermittent and of continuous light—Photographic effect modified by time-rate—Recurrent reversals under light—Pressure image and inductoscripts

Conductivity variation under rapid electromotive variation due to electric radiation—The Conductivity Recorder—Characteristic curve of a single-point Iron Receiver—Effect of intensity of currents in modification of the characteristic curve—The time-lag—Characteristic curve of a mass of iron-filings—Curve of Cyclic Variation exhibiting hysteresis—Response of self-recovering receiver to electric radiation—Characteristic cyclic curve of a self-recovering receiver—Curve showing variation of resistance with increasing E. M. F.—Characteristic cyclic curve of negative substance, potassium

Response of Fe₃O₄ receiver to a single stimulus—Superposition of stimuli—Effects of slow and rapid intermittence of stimulation—Opposite effects of feeble and strong stimulations—Effect of variation of temperature on response of inorganic receiver and of muscle—Effects of stimulants, depressants and poisons

Characteristics of response of a muscle—Mechanical Lever Recorder—Electric Response of living substances—Electric response of plants—Universal applicability of the test of electrical response—Inorganic response—Effect of superposition of stimuli—Fatigue of response in tin—Effect of stimulus of light on metals—An artificial retina—Binocular alternation of vision—Effects of stimulants and depressants on response of metals—Response of inorganic matter "killed" by poisons

Electromotive Wave concomitant with molecular disturbance—Method of Block—Recording apparatus—Experiments demonstrating balancing effect—Comparison of electric excitability of two points—The Electric Comparator—Response by method of relative depression or exaltation—Detection of traces of physico-chemical change—Interference effects—The cell form of apparatus—Response dependent on molecular condition—Effects of annealing and of previous vibration—Transformation of abnormal to normal response after continuous stimulation—Response under increased intensity of stimulus—Effect of sub-minimal stimulus—Maximum effect—Chemical excitants and depressants—Opposite effects of strong and feeble dose—Effect of "poisons" in abolition of response

The Response Recorder—Photographic Recorder—Graduation of intensity of stimulation—Stimulus of torsional vibration—The physiological character of response—Uniform responses—Fatigue—Increasing amplitude of response under increasing intensity of stimulus—Effect of superposition of stimuli—Abolition of response of plant scalded to death—Depression and abolition of response under anæsthetics and poisons

Response by variation of electric resistance—The Quadrant Method—Response of leaf to light from a single spark—Effect of increasing intensity of light—Effects of stimulants and depressants—Parallelisms in different modes of response

Electromotive response to the stimulus of light—Similar responses to mechanical and photic stimulation—The vegetable photo-electric cell—Normal negative response of the leaf to light—Positive response to light exhibited by too young and too old specimens—Effect of increasing duration of exposure—The D- and A-effects—Positive response of actively assimilating plants—Effect of continued action of light—Unmasking of A- and D-effects

The Automatic Recorder of assimilation in plants—The Bubbler—Plant as a sensitive detector of variation of light—Hourly variation of assimilation—Effect of infinitesimal trace of chemical substances on assimilation—Efficiency of photosynthetic organ in storage of solar energy

Diurnal periodicity in movements of plants—Effects of variation of temperature and of light—The Selenium cell—The Radiograph—The Wheatstone Bridge—Automatic keys—The Galvanograph—Radiograph of variation of intensity of light for 12 hours in winter—Record of diurnal variation of light and temperature in summer—Light noon and thermal noon

Record by the Crescograph—Determination of the absolute rate of growth—Effect of chemical reagents—The Balanced Crescograph—Wireless stimulation and growth—Effects of feeble and of strong stimulation

Magnification of fifty million times by the Magnetic Crescograph—Demonstration of effects of variation of temperature and of chemical reagents on growth by the Magnetic Crescograph—The Magnetic Radiometer—Discrimination of radiation components in the solar spectrum in the morning and at midday—Comparison of energy of different rays in the solar spectrum

Accurate record of extremely short intervals of time—Principle of resonance—Determination of the latent period—Measurement of velocity of transmission of excitation in Mimosa pudica—Effect of variation of temperature on the velocity—Nervous impulse in animal and plant—Contractility, Conductivity and Rhythmicity—The Resonant Cardiograph—Characteristic cardiograms of tortoise, frog and fish—Effects of depressant and stimulant on cardiac pulsation—Stimulation and depression of autonomous pulsations of Desmodium gyrans