the answer is Receptor . :D
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 retina detects light and the optical nerve sends the signal to the brain.
The first event associated with a reflex is the stimulus, which activates sensory receptors in the body. These receptors then send a signal to the spinal cord, bypassing the brain to produce a quick response from motor neurons, resulting in the reflex action.
This is what happens:a receptor detects a stimulus (change in the environment)a sensory neuron sends a signal to the relay neuronthe relay neuron sends the signal to the motor neuronthe motor neuron sends a signal to the affected partthe affected part produces a response
Yes it carries the HDMI signal properly.
A biosensor is a device that detects a biological response and converts it into an electrical signal. It typically consists of a biological element, such as enzymes or antibodies, and a transducer to produce the signal. Biosensors are used in various applications, such as environmental monitoring, medical diagnostics, and food safety.
When your wife calls your name loudly, that action constitutes a signal that reaches your ear through acoustical processes, and carries the coded message that you had better get your tuchas over to where she is ASAP.
When a stimulus is detected by a sensory nerve ending, it creates an electrical signal that travels along the nerve fiber to the spinal cord or brain. In the brain, the signal is processed, and a response is generated. The response signal then travels back along motor nerves to the muscles or organs to carry out the appropriate action.
Carries multiple signal on a signal medium.
In negative feedback loops, a sensor is a component that detects a change in a system's internal or external environment. It then sends this information to the control center, which triggers a response to counteract the change and maintain homeostasis. The sensor plays a crucial role in providing feedback that helps regulate and stabilize the system.
Neurotransmitters that bind to the postsynaptic membrane generate a response by either depolarizing or hyperpolarizing the postsynaptic neuron. This response can lead to the generation of an action potential if the threshold is reached, propagating the signal further along the neuron.
fiber optics