a receptor
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.
The three basic components of every feedback control system are: the sensor (or detector) which measures the system's output, the controller which processes this information and generates a control signal, and the actuator (or final control element) which takes the control signal and adjusts the system's input to achieve the desired output.
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The Thermometer.
The nucleus is the control center of the neuron, where genetic information is stored and regulates cellular functions. It plays a vital role in maintaining the neuron's structure and function.
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 part of a feedback loop that directly influences the regulated condition is called the "effector." It receives signals from the control center and produces responses to counteract any deviations from the set point of the regulated condition.
The effector is the part of a feedback mechanism that causes change to make up for the departure from the set point. It receives signals from the control center and produces a response to bring the system back to its desired state.
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.
The three basic components of every feedback control system are: the sensor (or detector) which measures the system's output, the controller which processes this information and generates a control signal, and the actuator (or final control element) which takes the control signal and adjusts the system's input to achieve the desired output.
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it is important for our body to maintain homeostasis(constant internal environment). there are 3 components.receptor which receives the change then it is transferred to the control center (mostly brain),which makes a correct response which will be send to the effector organ.It is maintained by either positive or negative feedback mechanism.
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The Thermometer.
mitochontria
The sensor component of a negative feedback loop detects changing conditions and sends signals to the control center for regulating responses to maintain homeostasis.
The nucleus is the control center of the neuron, where genetic information is stored and regulates cellular functions. It plays a vital role in maintaining the neuron's structure and function.