all-or-none law Sentence Examples
- In neuroscience, the all-or-none law states that a neuron either fires completely or not at all in response to a stimulus.
- The all-or-none law plays a fundamental role in understanding the basic functioning of individual neurons in the nervous system.
- According to the all-or-none law, the intensity of a stimulus does not affect the magnitude of the neural response; it either triggers an action potential or does not.
- The application of the all-or-none law is crucial in studying the behavior of neurons in various sensory and motor systems.
- Neurophysiologists often use the all-or-none law as a foundational principle when investigating the transmission of signals in the nervous system.
- The concept of the all-or-none law simplifies the understanding of neural communication, emphasizing the binary nature of neuronal firing.
- Researchers studying the neural pathways in the brain rely on the all-or-none law to predict and interpret neuronal responses to different stimuli.
- The all-or-none law is a key principle in neurobiology courses, providing students with a foundational understanding of neural function.
- Clinicians may consider the all-or-none law when assessing neural dysfunction, recognizing that a failure to fire can disrupt normal physiological processes.
- Understanding the all-or-none law is essential for designing experiments that investigate the precise conditions under which neurons generate action potentials.
all-or-none law Meaning
all-or-none law (n)
(neurophysiology) a nerve impulse resulting from a weak stimulus is just as strong as a nerve impulse resulting from a strong stimulus
Synonyms & Antonyms of all-or-none law
No Synonyms and anytonyms found
FAQs About the word all-or-none law
(neurophysiology) a nerve impulse resulting from a weak stimulus is just as strong as a nerve impulse resulting from a strong stimulus
No synonyms found.
No antonyms found.
In neuroscience, the all-or-none law states that a neuron either fires completely or not at all in response to a stimulus.
The all-or-none law plays a fundamental role in understanding the basic functioning of individual neurons in the nervous system.
According to the all-or-none law, the intensity of a stimulus does not affect the magnitude of the neural response; it either triggers an action potential or does not.
The application of the all-or-none law is crucial in studying the behavior of neurons in various sensory and motor systems.
