Effectors that bring about change receive information from the efferent pathway of a feedback system. This pathway carries signals from the control center to the effector in response to the input received from the afferent pathway. The effector then carries out the necessary responses to maintain homeostasis in the body.
The effector in a feedback loop is commonly known as the target organ or tissue that is responsible for carrying out the response to the stimulus. It receives signals from the control center based on the information it receives from the sensor.
The three parts of a homeostatic regulatory mechanism are the receptor (detects changes in the internal or external environment), the control center (receives information from the receptor and initiates a response), and the effector (carries out the response to restore balance or stability).
The effector of the nose is the muscles that control the movement of the nostrils and the upper lip, allowing for actions like flaring the nostrils or wrinkling the nose. The effector muscles work in response to signals from the brain to adjust the position and shape of the nose.
Extrapyramidal pathway
stimulus, receptor, afferent pathway, control center, efferent pathway, effector, response
Effectors that bring about change receive information from the efferent pathway of a feedback system. This pathway carries signals from the control center to the effector in response to the input received from the afferent pathway. The effector then carries out the necessary responses to maintain homeostasis in the body.
The structure that receives output from the control center in a feedback system is typically the effector. The effector is responsible for carrying out the response dictated by the control center to maintain homeostasis or achieve the desired outcome.
In a feedback system, the sequence of events typically involves the initial stimulus activating a sensor, which then sends a signal to the control center. The control center receives the signal, processes the information, and initiates a response by sending signals to effector organs. The effector organs then carry out the necessary actions to counteract the initial stimulus, ultimately restoring balance to the system.
Afferent pathway
Afferent pathway
Receptor, Contol center and the effector.
The receptor, the control center and the effector.
The correct order of a homeostatic control system is: Stimulus - a change occurs in the internal or external environment. Receptor - sensors detect the change in the environment. Control center - processes the information and determines the appropriate response. Effector - carries out the necessary response to restore homeostasis.
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.
The effector in a feedback loop is commonly known as the target organ or tissue that is responsible for carrying out the response to the stimulus. It receives signals from the control center based on the information it receives from the sensor.
The effector is the component of a regulatory system that produces the response or output when activated by a stimulus. It helps maintain the system's stability or achieve a desired goal by initiating appropriate action in response to the input it receives.