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

Adaptation essential nature of Dominance Entropy in physiology Levels and alcohol Stimulus essential property of Dominance of receptors Neuron gradient in Receptors and gradients Synapse phylogeny of Waves in nerve impulse 0151 0152

Receptors and instinct Dream reality of Hallucination reality of Integration (physiological) of percepts Mind (individual) as basis of all Reality nature of Sensation basis of all Space-time as projection 0161 0162

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

Impulse, nervous bunch Receptors and stimulus Chronaxy time in chronaxy Sensation and Müller's law Space-time intensity of stimulus 0221 0222

Basic pattern mathematics of Impulse, nervous single Mathematics of pattern Neuron directing impulses Nirvanophilia Impulse, nervous frequency and synapse Impulse, nervous single Receptors and stimulus Space-time and patterns Synapse Rate of crossing 0231 0232

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

Affect and inhibition Brain dominance of Dominance Environment Equilibrium Inhibition and emotion Learning Neuron essentila function Nirvanophilia Receptors and gradients Stimulus Ants Genes Heredity and function rules Schizophrenia 0283 0284

Axon length and cell-size Chronaxy Delage on Cortex histology of Essential light of retina Neuron and axon length Receptors and cocaine Synapse and nicotine Vision Vision 0295 0296

Adaptation in receptors Conduction, nerve velocity of Impulse, nervous in sensation Receptors in groups Axon frequency of 'burst' Pain impulses of 0309 0310

Conscious mind function of Dream Nirvanophilia and Freud on Reflex and nirvanophilia Sensation intensity of Electron and intelligence Levels consciousness as Memory and counscious mind Pain nature of Pleasure nature of Quantum theory and intelligence Receptors Weber-Fechner law Sensation Weber-Fechner law Stimulus and sensation 0311 0312

Entropy ? validity of Intelligence basic of Nirvanophilia basis of Perceptron Inhibition in retina Integration (physiological) extract from Creed Receptors integration in Retina essential light of retina Sensation integration in Vision 0313 0314

Axon giant in lumbricus Impulse, nervous and conditioned reflex Neuron giant in lumbricus Receptors all [chemlotaclic] Synapse giant in lumbricus Excitation in reflex centre Impulse, nervous single Synapse on perikaryon 0315 0316

Goldfish generation of impulses Impulse, nervous spontaneous generation Receptors distribution in skin Sensation in skin Coordination by symbols Dominance in organisation Levels and organisation Organisation logic of its own Symbolism in organisation 0423 0424

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

Summary: Sensory (dispersive) cortex must contain no learning mechanisms. Cortex, visual must contain no memory Receptors and sensory cortex must contain no learning apparatus Chasing equation of Coding in machine Output as function of input Transformation function-forming 2989 2990

Receptors information enters only via receptors Personal notes [10]: The book written 3039. 3039 3040

Receptors reason for multistable systems Signal multistable system responding to The Multistable System [24]: Multistable system responding to 'signal', 3520. 3519 3520

Summary: Variables in the brain should be driven actively by the environment. Receptors reason for multistable systems 3830 3831