sensory cells
Sensory cells detect external stimuli such as light, sound, touch, taste, and smell. These cells are specialized in converting the energy from these stimuli into electrical signals that can be interpreted by the brain.
Eyes and ears, because the other three senses are not possible to detect a distance object.
Chemoreceptores can detect chemical stimuli.
The epidermis.
Chemoreceptores can detect chemical stimuli.
sensory
In the skin, neurons that detect stimuli are called mechanoreceptors for touch, nociceptors for pain, and thermoreceptors for temperature. In the eyes, neurons that detect light stimuli are called photoreceptors, specifically rods and cones located in the retina.
sensory neurons
Sensory neurons are responsible for relaying information about external stimuli such as heat to the brain. These specialized cells detect the stimulus and transmit signals to the central nervous system for processing and response.
Nociceptors are sensitive to potentially damaging stimuli such as mechanical, chemical, or thermal stimuli. They detect noxious stimuli and convert them into electrical signals that are transmitted to the brain, where pain sensation is perceived.
Cells that detect changes are called sensory cells or receptor cells. These specialized cells are equipped with receptors that can sense various stimuli such as light, sound, pressure, temperature, and chemicals. They transmit this information to the central nervous system for processing and response.
Our ability to sense stimuli in our environment is limited by the range of frequencies and intensities that our senses can detect. Additionally, our perception can be influenced by factors like attention, expectation, and individual differences. Lastly, our sensory systems can become desensitized or fatigued over time, affecting our ability to detect stimuli.