Results 271 to 280 of about 118,530 (311)
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Dendritic crystallization

Australian Dental Journal, 1978
Abstract— The fundamentals of dendritic crystallization are presented. Examples illustrating the processes and structures involved have been obtained by the metallurgical examination of specimens of the base metal partial denture casting alloys.
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On the physiology of dendrites

Biosystems, 1969
Abstract Extra- and intracellular unitary potentials were recorded in the exposed spinal cord of cats. These potentials are attributed to the activity of dendrites. It is suggested that they contribute to the slow components of the spinal cord potentials. The moloncuron excitabiiity was studied during the development of spinal responses to activation
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The Year of the Dendrite

Science, 1997
Octopus-like neurons, the cells of the brain, typically have many input “arms”—the dendrites, which receive signals from other neurons—and one output arm, the axon. Two new reports in this week's Science show that the dendrites process information in a manner even more complex than expected.
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DENDRITIC COMPUTATION

Annual Review of Neuroscience, 2005
One of the central questions in neuroscience is how particular tasks, or computations, are implemented by neural networks to generate behavior. The prevailing view has been that information processing in neural networks results primarily from the properties of synapses and the connectivity of neurons within the network, with the intrinsic excitability
Michael, London, Michael, Häusser
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The Dendritic State and Dendritic Effects

2012
Before 1984, three classes of macromolecular architecture (i.e. linear, cross-linked, and branched) were widely accepted for construction of relatively polydisperse products of different molecular weights. Since that year, the “dendritic state” is acknowledged as a new, fourth class of polymer architecture.
Jaroslav Šebestík   +2 more
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Dendritic Gelators

2005
Dendritic molecules fall somewhere between small-molecule organic systems and polymers. Like polymers, they are constructed from a repeating motif, often have nanoscopic dimensions, and are capable of forming multiple non-covalent interactions. However, they are synthesized using organic chemistry methods and, unlike polymers, have well-defined ...
Andrew R, Hirst, David K, Smith
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BISTABILITY OF DENDRITES

International Journal of Neural Systems, 1991
The theory of the ohmic electric function of dendrites is doubtful. A hypothesis was put forward that non-, partly or slow-accommodating neurons possess a slow inward dendritic current. It was predicted that these dendrites might be bistable, i.e., they might have stable depolarization in addition to the rest potential.
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On Chaotic Dendrites

Periodica Mathematica Hungarica, 1999
zbMATH Open Web Interface contents unavailable due to conflicting licenses.
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Dendritic Pseudorotaxanes

Angewandte Chemie International Edition, 1998
Self-organization is the key. A series of dendritic pseudorotaxanes were efficiently constructed from complementary building blocks-namely, a three-armed, triply charged ammonium salt and the first, second, and third generations of benzyl ether dendrons bearing the dibenzo[24]crown-8 moiety.
Nori, Yamaguchi   +2 more
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Dendritic stylization

The Visual Computer, 2008
Dendritic or branching structures are commonly seen in natural phenomena such as lightning, cracks, and vegetal growth. They are also often used for artistic or decorative purposes. We present a new procedural method for modeling dendritic structures based on a path planning approach.
Jeremy Long, David Mould
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