Neurons are impulse conducting cells that process properties of excitability and conductibility.
I think you mean 'excitation'; this refers to the process by which a current sets up a magnetic field which, in turn, induces a voltage into a conductor or coil -usually applied to transformers, motors, and generators.
Na channels play a crucial role in regulating the excitability of neurons by allowing sodium ions to flow into the cell, triggering an action potential. This process is essential for transmitting electrical signals in the nervous system.
The process that describes how a signal travels from one end of a neuron to the other is called neurotransmitter release. Neurons are very important.
collgative properties
Nerve cells, or neurons, demonstrate irritability and conductivity, allowing them to transmit electrical messages throughout the body. When stimulated, neurons generate an action potential, an electrical impulse that travels along their axons. This process enables communication between different parts of the nervous system and the body, facilitating responses to stimuli and coordinating various functions. Additionally, muscle cells also exhibit these properties, enabling them to respond to nerve signals and contract.
procedural due process
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The solubilties of the solutes are involved.
The chemical properties of a substance can be determined by changing the chemicals structure. This is the process that occurs in a chemical reaction.
Sun bleaching can cause amethyst crystals to lose their color and become paler. This process can also affect the properties of the crystals, such as their clarity and vibrancy.
The process of signal transmission along a neuron is called "neuronal propagation." It occurs as an electrical signal travels from the dendrites to the cell body, down the axon, and finally to the axon terminals where neurotransmitters are released to communicate with other neurons.
The five main properties of life are: -ability to process energy -ability to reproduce -growth -response to stimuli -homeostasis