Your ears respond to variations in air pressure - provided they are in the range of frequencies we hear.
Touch sensors are a bit more complex.
We can detect sharp/blunt. We can detect usual touch, and separately, we can detect a light brushing, as with a wisp of paper or cloth. Sometimes folk have some, but not all, of these touch sensors damaged and the analysis of which are damaged helps localize the damage location.
We can also feel vibrations, and this feeling is different from usual touch.
Mechanorceptor
mechanoreceptors
chemoreceptors
sensory receptor
Your internal organs have several kinds of sensory receptors. These receptors respond to touch, pressure, pain, and temperature by picking up the changes and transmitting impulses to the brain or spinal cord.it is important so you know when something is going on in your body
they are called receptors.
Retina in the eye contains sensory cells. Retina has got rods and cones. Cones are responsible for colour vision. Rods are responsible for vision in less amount of light.
chemoreceptors
sensory receptor
The proprioceptors are the sensory receptors and the end of the sensory nerves.
Mechanoreceptors are sensory receptors that respond to mechanical pressure or distortion. They are responsible for detecting sensations like touch, pressure, vibration, and proprioception. Examples of mechanoreceptors include Merkel cells, Meissner's corpuscles, Pacinian corpuscles, and hair cells in the inner ear.
Sensations
Within the dermis and subcutaneous layers there are different sensory receptors to detect sensations like temperature, pressure, heat, vibration etc.
The somatosensory cortex is a major area in the brain responsible for processing sensations related to touch, pressure, temperature, and pain. It is located in the parietal lobe of the cerebral cortex and plays a critical role in making sense of input from sensory receptors throughout the body.
Body sensations are registered in the brain through a network of sensory receptors that detect various stimuli such as touch, temperature, pain, and pressure. These sensory signals are then sent to specific areas of the brain for processing and interpretation, allowing us to perceive and respond to our physical environment.
Baroreceptors
the sensory receptors for the eyes are the cornea and the optic nerve
You have several sensory receptors and they all measure differences in pressure, displacement, and movement. The main ones are the Merkle, Meissner, Pacinian, Raffini, Krause, Hair follicle receptors, and the pain receptors.
sensory receptors detect changes(light levels, pressure on skin) in our surroundings. they convert one form of energy into another particular form of energy.