The peripheral nervous system carries impulses from the central nervous system to the effectors.
Motor neurons are able to create a response in effector organs, muscles and glands by sending signals to them.
False. A sensory neuron carries stimuli from the peripheral nervous system (such as skin or organs) to the central nervous system (brain and spinal cord) for processing. Effector neurons are responsible for carrying signals from the central nervous system to muscles, glands, or other organs to produce a response to the stimulus.
The autonomic nervous system dominates the control of effector organs under normal everyday conditions. It consists of the sympathetic and parasympathetic divisions, which work together to maintain homeostasis by regulating functions such as heart rate, digestion, and respiration without conscious effort.
The main organs involved in the nervous system are the brain and the spinal cord, which make up the central nervous system. The peripheral nervous system includes nerves that connect the central nervous system to the rest of the body's organs and tissues.
Central nervous system.
Nerve impulses are carried from the central nervous system to the effector organs (muscles or glands) by motor neurons. These motor neurons form a pathway known as the efferent pathway.
Impulses are sent from the brain to the effector organs along motor neurons. These motor neurons are part of the peripheral nervous system and carry signals from the central nervous system to muscles and glands, allowing for coordinated movement and responses.
Afferent pathways communicate sensory information (e.g. pain, cold) from your sensory organs to your central nervous system. Efferent pathways communicate information from your central nervous system to your effector organs (e.g. muscles and glands).
motor neuron is a type of neuron that found at the muscles, tissues, and organs.
Motor neurons are able to create a response in effector organs, muscles and glands by sending signals to them.
False. A sensory neuron carries stimuli from the peripheral nervous system (such as skin or organs) to the central nervous system (brain and spinal cord) for processing. Effector neurons are responsible for carrying signals from the central nervous system to muscles, glands, or other organs to produce a response to the stimulus.
two-neuron chain from CNS to effector organs. Parasympathetic and Sympathetic.
The order of a visceral reflex involves sensory receptors detecting a stimulus, which then sends signals via afferent neurons to the central nervous system. The central nervous system processes the information and sends signals through efferent neurons to the effector organs, resulting in a response to the stimulus.
The autonomic nervous system dominates the control of effector organs under normal everyday conditions. It consists of the sympathetic and parasympathetic divisions, which work together to maintain homeostasis by regulating functions such as heart rate, digestion, and respiration without conscious effort.
The component of the ANS that is characterized by ganglion located in or near effector organs is called the parasympathetic nervous system. The ganglia of the parasympathetic nervous system are located close to or within the target organs they innervate, allowing for direct and localized control of bodily functions. This branch of the autonomic nervous system is responsible for promoting rest, digestion, and relaxation.
The central nervous system has two organs, the brain and the spinal cord.
The component of the autonomic nervous system characterized by ganglia located in or near effector organs is the parasympathetic nervous system. This system is responsible for promoting "rest-and-digest" functions, facilitating processes like digestion and energy conservation. The ganglia in the parasympathetic system are typically situated close to or within the organs they innervate, allowing for localized control.