Ross indexed the following pages under the keyword: "Reactions".

Reactions delayed and cortex 0000+04 0001

Dream Inhibition Stimulus Energy Reactions delayed and cortex 0014 0015

Infant Reactions Reflex and habit Reflex, conditioned 0034 0035

Hypnosis (mesmerism) Adaptation two meanings Excitation Inhibition Reactions Reflex, conditioned 0062 0063

Intelligence Reactions 0080 0081

Inhibition Learning Reactions Stimulus Waves 0088 0089

Dream theory of Energy accumulated and dreams Function rules and development of central nervous system Learning in Coelenterates Neuron development Reactions inborn and learned Chronaxy and learning Learning and chronaxy Pain chronaxy Synapse development 0111 0112

Cortex inhibits thalamus Inhibition of thalamus by cortex Pain in neurotics Pleasure in thalamic syndrome Reactions in thalamic syndrome Affect and thalamus Conscious mind and thalamus Instinct, sex and thalamus Stimulus pleasant 0121 0122

Conduction, nerve in frog Conduction, nerve multiple Impulse, nervous 2 in 1 nerve Introspection Reactions effect of after returning stimuli 0163 0164

Brain fundamental function Function rules fundamental function rules of central nervous system Neuron essentila function Differentiation in development Modification Nirvanophilia Reactions development of reactions 0167 0168

Chronaxy Differentiation in development Environment Evolution Function rules and development of central nervous system Heredity and function rules Mind (individual) development of Neuron directing impulses Nirvanophilia Reactions development of reactions Reality nature of Synapse Rate of crossing Parameter function rules as Space-time and chronaxy 0179 0180

Cortex and release phenomenon Excitation Inhibition and petit mal Memory and effort Mind (individual) and effort Reactions selection of reactions Stimulus Stimulus jamming the works Cortex, sensory and stereoscopy Cortex, visual Cortex, visual and stereoscopy Essential light of retina Fatigue of retina Inhibition Localisation in cortex Retina fatigue Vision 0183 0184

Axon and nicotine Impulse, nervous change of chronaxy Receptors and chronaxy Reflex, conditioned and chronaxy Mathematics of psychology Reactions and dendrons 0189 0190

Basic pattern Cortex and sleep Cortex, motor in sleep Dream Fatigue and sleep Impulse pattern Impulse, nervous congestion Inhibition and sleep Neuron and dreams Nirvanophilia Synapse and sleep Chronaxy Reactions delayed and cortex Receptors and sleep Stimulus and sleep 0193 0194

Hypnosis (mesmerism) Impulse pattern and unit impulse Impulse, nervous single Reactions to unit impulse Stimulus unit Conflict for final common path Environment and instinct Inhibition Instinct and environment Instinct, sex origin of 0197 0198

Differentiation original central nervous system Infant central nervous system of Mathematics of psychology Schizophrenia and herd instinct Complex (Freudian) in dementia praecox Infant and punishment Nirvanophilia and levels Pain and herd instinct Reactions and nirvanophilia Stimulus Stimulus and nirvanophilia 0199 0200

Dream at lower level Basic pattern in cortex Brain fundamental function Cortex Cortex and pattern Cortex, visual and nirvanophilia Impulse pattern in cortex Learning Localisation in cortex Modification in cortex Nirvanophilia Reactions and environment Reflex in melacholia Signal reality as Vision binocular 0205 0206

Affect of complex Complex (Freudian) bundle of reactions Inhibition and emotion Introspection Levels and nirvanophilia Nirvanophilia and levels Reactions and complex Reflex higher reflex Stimulus and nirvanophilia Behaviour controlled by thalamus Conflict among patches Inhibition of reaction groups 0211 0212

Cortex Complex (Freudian) and nirvanophilia Conscious mind and nirvanophilia Function rules Introspection Levels and nirvanophilia Nirvanophilia and reciprocal innervation Reactions and nirvanophilia Symbolism in insanity 0215 0216

Reactions Threshold of synapse 0223 0224

Adaptation - Cortex and learning Environment and reflexes Evolution and reflex Heredity of reflexes Impulse, nervous effect on synapse Learning after pain Pain and learning Reactions development of reactions Reactions same as reflex Stimulus "simple" stimulus Basic pattern and pain Geodetic path, postulate of How produced Impulse, nervous and geodetic path Intelligence Laws of nature and intelligence Space-time and geodetic path 0227 0228

Chronaxy criticism of Conduction, nerve rate of and chronaxy Cortex and chronaxy Impulse, nervous change of chronaxy Neuron and chronaxy Nirvanophilia and chronaxy Reactions Synapse Rate of crossing Basic pattern development of Cortex and preformed reflex Differentiation in infant Infant reflexes in Modification Reactions modification of 0229 0230

Basic pattern gradual setting of Dominance Instinct, sex origin of Pain large 'weight' Impulse, nervous timing of Localisation of reaction Neuron essential function Reactions localisation of Stimulus Hover mouse here to display note 0243 0244

Cortex and learning Cortex, visual Impulse, nervous number of Learning number of impulses Memory and cortex Modification of neuron by impulse Reactions number of impulses in Retina number of impulses from Synapse effect of impulse on Vision Association Excitation as "allowing" Impulse pattern effect of one synapse Impulse pattern and pain Inhibition by impulses meeting Nirvanophilia and movement Pain Reflex inhibition of Stimulus two types 0245 0246

Impulse, nervous memory of Memory Neuron memory in Nirvanophilia Reactions and memory Conflict in neuron Receptors and impulse frequency Space-time continuous Stimulus and nirvanophilia 0251 0252

Conflict Impulse pattern Inhibition of pattern Memory and reactions Reactions and memory Integration (physiological) Reactions delayed and Dementia Praecox Schizophrenia "can't wait" 0253 0254

Complex (Freudian) in dementia praecox Reactions repressed Unconscious, the merely waiting Adaptation in Microstomum Intelligence in Microstomum Reflex male copulating 0255 0256

Affect largely conventional Basic pattern memory as basic pattern Cortex, removal of and loss of memory etc Diffusion in growth Dominance in growth Memory and loss of cortex Reactions whole cortex acts Impulse pattern elaboration of Localisation of reaction Reactions localisation of Waves of impulses 0257 0258

Basic pattern memory as basic pattern Memory Waves ripple theory Differentiation in memory Neuron and nirvanophilia Nirvanophilia Reactions and memory 0261 0262

Impulse pattern aim of Nirvanophilia Reactions termination of Basic pattern Conflict Impulse pattern 0265 0266

Basic pattern mathematics of Impulse pattern aim of Space-time and patterns Basic pattern and unconscious Conscious mind as level Holism concept of analysis Reactions unconscious as Unconscious, the nature of 0269 0270

Basic pattern complexity of Cortex number of neurons Cortex and the unconscious Cortex equipotentiality of Cortex inhibition and hypnosis Cortex, visual and memory Hypnosis (mesmerism) and universal mind Impulse pattern complexity of Inhibition and hypnosis Intelligence and number of neurons Learning localisation of Localisation of learning Localisation of memory localisation Memory localisation of Metagnosis Neuron number in cortex Unconscious, the relation to conscious Chronaxy apparatus for Conscious mind essential feature Cortex and delayed reaction Function rules in central nervous system Hypnosis (mesmerism) delayed reaction Impulse, nervous course in cortex Inhibition and consciousness Intelligence localisation of Neuron essentila function Nirvanophilia Reactions delayed and consciousness Reactions delayed and cortex Stimulus delayed reaction 0281 0282

Basic pattern Behaviour controlled by thalamus Differentiation in development Impulse pattern Modification of neuron by impulse Reactions development as reactions Reactions of genes Conflict in society Cortex echo phenomenon Cortex, visual and echo phenomenon Impulse, nervous "echoes" back Learning Nirvanophilia Reactions Vision 0285 0286

Differentiation in infant Infant Integration (physiological) in infants Levels Reactions development of reactions Reflex in melacholia Stimulus abnornal stimulus Dream continuous Heredity and hysteria Infant dreams in Inhibition and activity Integration (physiological) in hysteria Levels dissociation of 0293 0294

Impulse pattern aim of Integration (physiological) of patterns Nirvanophilia and superimpose of impulse patterns Reactions and superimpose of impulse patterns Basic pattern images [?] Cortex, visual Problems solving of Space-time and patterns 0297 0298

Conscious mind function of Learning in apes Pattern (in general) MacCurdy on Reactions tend to combine Affect Excitation without outlet Stimulus attention to Unconscious, the funtion of 0307 0308

Aggregation Memory in Protozoa Memory as organisation Nirvanophilia Jennings on Organisation and memory Reactions and nirvanophilia Reactions by trial and error Reducibility nearly reducibility Reflex are plastic Amoeba as "higher" animal Brain unnecessary Localisation Laskley on 0341 0342

Cortex, visual Impulse pattern aim of Integration (physiological) two types Organisation after amputation Reactions Vision and cortical injury Affect and memory Association and memory Excitation subliminal Memory Lashley on Space-time time factor in central nervous system 0343 0344

Adaptation Sherrington on Reactions modification of Organisation Thorndike on Survival and brain 0403 0404

Neuron in reactions Reactions use of neurons Conscious mind function of 0411 0412

Adaptation as "circle" Environment as "circle" Reactions as "circle" Neuron in reactions 0425 0426

Reactions number of impulses in Dominance and "pressure" Organisation "pressure" in 0429 0430

Vision binocular Conscious mind function of Impulse, nervous and conditioned reflex Integration (physiological) and consciousness Memory go straight to it Reactions are irreversible Space-time continuous 0441 0442

Function rules fundamental function rules of central nervous system Reactions right and wrong Receptors and impulse frequency Retina function of Signal is irritant 0485 0486

Organisation number of types of Summary: Nirvanophilia is identical with stable equilibrium. Equilibrium equals nirvanophilia Nirvanophilia equals stable equilibrium Organisation change of Reactions by trial and error 0585 0586

Equilibrium of a system Summary: A great idea... organisation must spread from the environment inwards. Basic pattern basic pattern organisation Environment must be "orderly" Impulse pattern and organisation Intelligence and environment Organisation and intelligence Reactions two basic types of 0587 0588

Equilibrium ? animals stable Equilibrium and echo-impulses Reactions two basic types of 0601 0602

Feeding Inhibition Neutral point (of equilibrium - including 'cycle', 'region' etc.) moving Plasticity of reaction Reactions plasticity of Death as an equilibrium Instinct, sex peculiarity of Learning 0795 0796

Adaptation - Reactions modification of Habituation Integration (physiological) memory as Memory as organisation in time Reflex, conditioned Space-time and learning 0797 0798

Organisation change of Reactions to pattern 0821 0822

Summary: A new idea. Suppose the cortex is a 'representation' of the environment, i.e. corresponding to events in the periphery (stimuli, reactions) there are events in the cortex. Nothing new in this idea. But suppose that the cortex is more 'sensitive', so that if the periphery is being driven out of its range of stability the corresponding variable in the cortex will break first, i.e. get outside its range of stability, and thus switch to another portion of the field (817), and change partially to another organisation. Cortex as 'sensitive' Reactions right and wrong Reflex, conditioned Equilibrium by cortex 'breaking' Isomorphism of cortex and environment Neuron death of Pain and organisation Reflex, conditioned 0859 0860

Behaviour change of organisation as behaviour Organisation change of Reactions by change of organisation 0903 0904

Levels mechanism of Neutral point (of equilibrium - including 'cycle', 'region' etc.) control of Reactions by change of organisation 0931 0932

Summary: If two environments keep occurring, a system will break till it finds an organisation making it stable to both. Reactions two basic types of 1121 1122

Summary: "Reaction" is divided into "response" and "variation". Summary: The intrinsic form of a substitution might prove interesting. Break as variation Conscious mind and intrinsic equations Organisation change = variation Organisation intrinsic equation Reactions response ? variation Subjective and intrinsic equations Substitution (mathematical) intrinsic equation Delay (in substitution) and sub-wholes Organisation degree of 1123 1124

Summary: n breaks provide 2n organisations. To give 10 different organisations every second throughout a man's life we need only 35 breaks! Break surface causes fresh start Learning upsets everything Reactions new upsets old Summary: Does the acquisition of a new reaction upset all the older one's as demanded by my theory? The answer seems to be "yes" but it may in some cases be of zero extent. Reflex, conditioned and break-theory 1141 1142