Signals from the sensory organs, such as the eyes, ears, skin, and taste buds, are sent to the brain to be processed. Different regions of the brain are responsible for interpreting different types of sensory information, allowing us to perceive and respond to our environment.
The section of the ear known as the cochlea is the part of the ear with sensory cells. Vibrations from outside the ear, go into the ear and vibrate the parts of the ear, then the vibration continues to the cochlea, which is a spiral-shaped sensory organ within the ear that the vibration goes through. The nerves in the cochlea translate the vibrations into nerve signals, which continue to the brain where it is processed into recognizable sound, such as speech.
The bladder and brain are connected through the nervous system. Signals from the bladder are sent to the brain via sensory nerves, informing the brain when the bladder is full or empty. The brain then sends signals back to the bladder to control the release of urine.
The auditory cortex is located in the temporal lobe and is responsible for hearing. Smell signals are processed by the olfactory bulb from where they go to the amygdala and are also processed by the temporal lobe
Nerves from a ganglion typically project to target tissues, organs, or other ganglia. They carry information such as sensory input or motor commands. The specific pathway and function of the nerves depend on the location and type of ganglion.
The kingdom for multicellular organisms that can move freely is Animalia. Animals are characterized by their ability to move independently and have specialized sensory and locomotor organs that allow them to interact with their environment.
The section of the ear known as the cochlea is the part of the ear with sensory cells. Vibrations from outside the ear, go into the ear and vibrate the parts of the ear, then the vibration continues to the cochlea, which is a spiral-shaped sensory organ within the ear that the vibration goes through. The nerves in the cochlea translate the vibrations into nerve signals, which continue to the brain where it is processed into recognizable sound, such as speech.
Sensory neurons, motor neurons, and interneurons. Motor neurons usually carry information to muscles and glands. Sensory neurons carry information from sense organs or free endings to the spinal cord or brain. Interneurons act as a go between.
The bladder and brain are connected through the nervous system. Signals from the bladder are sent to the brain via sensory nerves, informing the brain when the bladder is full or empty. The brain then sends signals back to the bladder to control the release of urine.
The auditory cortex is located in the temporal lobe and is responsible for hearing. Smell signals are processed by the olfactory bulb from where they go to the amygdala and are also processed by the temporal lobe
1.sensory neuron- carry impulses from the sensory receptors to the Central Nervous System 2.motor neurons- carry impulses from the Central Nervous System to the muscles and glans 3.association neuron- relay impulses netween sensory and motor neurons -------------------- AD go to bookden.webs.com .. a website for booklovers.. thx
The kingdom for multicellular organisms that can move freely is Animalia. Animals are characterized by their ability to move independently and have specialized sensory and locomotor organs that allow them to interact with their environment.
Nerves from a ganglion typically project to target tissues, organs, or other ganglia. They carry information such as sensory input or motor commands. The specific pathway and function of the nerves depend on the location and type of ganglion.
yes!
Proprioceptors in joints, tendons, etc. send signals to the cerebellum where the information is processed at a subconscious level. Signals also go to the cerebral cortex for processing at a conscious level
Segmented worms, also known as annelids, have sensory organs called setae. These are bristle-like structures that help the worms sense their environment, move, and anchor themselves. Annelids also have chemoreceptors on their bodies to detect chemicals in their surroundings.
Lord Krishna says that if a person keep away all the sensory organs from their subjects and go on thinking about them, then he is called as hypocrite. (3/6). Lord Krishna says that the person who control the sensory organs by his mind and then allow the sensory organs to involve in their subjects, with out psychological involvement in the subjects, is the one who is great (special one). (3/7). (As per Geeta, if you deprive the sensory organs of their subjects and then go on thinking about them, you are hypocrite. One has to be hypocrite for various reasons, mostly on religious and social grounds. That is not the good thing. Day by day some western countries are showing noticeable improvement in the social norms. Religions are better understood. So may be in near future one may not be forced to remain hypocrite for social reasons. In most of the eastern countries, the society forces one to become hypocrite. Lord Krishna is very much against to be such abnormal control of sensory organs from their subjects. Lord Krishna says that you should control the sensory organs psychologically. Then let the sensory organs go after their subjects. That person is great, who can control the sensory organs psychologically and allow the sensory organs to involve in their subjects. This is like you are riding the horse and you have control over the same.)
It all depends on which area of the sensory system you want to go into. For example if it to do with smell you can go into ENT or if visual then Opthamology, or if hearing is your area then auditory etc