Axons from the olfactory nerve project to the olfactory bulb in the brain. The olfactory bulb processes and relays information about smells to other areas of the brain, such as the olfactory cortex, where scent perception occurs.
2 answers
Cribriform plate
1 answer
The olfactory tract is a bundle of axons connecting the mitral and tufted cells of the olfactory bulb to several target regions in the brain.
1 answer
Olfactory nerve to the brain's olfactory bulb, where they are processed and interpreted as specific smells. The olfactory nerve is responsible for carrying information about odors from the nose to the brain.
2 answers
the nosetrills,nasal cavity,mucus membrame,cilia,olfactory nerves and olfactory bulb.
1 answer
olfactory bulb is related with sense of smell. in human it has small in size but in animals its size is so large. therefore the sense on smell in animals is better then human
1 answer
The olfactory bulb (for the sense of smell) is located in the limbic system of the brain.
1 answer
The olfactory nerve, responsible for the sense of smell, ends in the olfactory bulb located in the brain, specifically in the olfactory cortex. This is where the nerve impulses triggered by odors are processed and interpreted.
2 answers
NO it has to do with the sense of smell
1 answer
The olfactory bulb is located in the forebrain, specifically in the rostral (front) part of the brain. It is part of the limbic system, which is involved in emotions, behavior, and memory.
1 answer
The olfactory components of the limbic system include the olfactory bulb and olfactory cortex, which are involved in processing smell-related information. The non-olfactory components include the hippocampus, amygdala, and cingulate gyrus, which are associated with memory, emotion, and regulation of autonomic functions.
2 answers
The olfactory bulb is actually a tiny lobe of the brain.
There are many thousands of different cell types in the olfactory bulb, each with receptors for different chemicals. When these receptors bind to their matching chemical in the air they become excited and trigger a nearby olfactory nerve cell.
Details of what happens after this have yet to be worked out, but basically the firing of these nerve cells is analyzed by nerve circuits in the rest of the olfactory bulb then transferred to the brain, where we call it "smell".
1 answer
The olfactory bulb and the olfactory cortex, located in the temporal lobe of the brain, are primarily responsible for processing smell information. The olfactory bulb receives sensory input from the nose and sends signals to the olfactory cortex for further processing and interpretation of smells.
2 answers
The olfactory bulb is actually a tiny lobe of the brain.
There are many thousands of different cell types in the olfactory bulb, each with receptors for different chemicals. When these receptors bind to their matching chemical in the air they become excited and trigger a nearby olfactory nerve cell.
Details of what happens after this have yet to be worked out, but basically the firing of these nerve cells is analyzed by nerve circuits in the rest of the olfactory bulb then transferred to the brain, where we call it "smell".
1 answer
Olfactory nerve. Olfactory nerve fibers arise from olfactory receptor cells located in olfactory epithelium of nasal cavity and pass through cribriform plate of ethmoid bone to synapse in olfactory bulb.
1 answer
The olfactory bulb in humans averages around 4 cubic centimeters in volume, which is relatively small compared to other mammals. It is responsible for processing smell information received from the olfactory nerves.
2 answers
We have an olfactory bulb at the base of our brain that has nerve receptors leading into our nasal cavity. When certain particles come in contact with these receptors, the olfactory bulb sends its message to another part of the brain in the limbic region.
1 answer
No, the relay stations for olfactory pathways are located in the olfactory bulb in the brain, not the hypothalamus. The olfactory bulb processes sensory information from the nose before sending it to other brain regions for further interpretation and reaction. The hypothalamus plays a role in regulating hormones and certain basic functions like hunger and thirst.
2 answers
Ah, the olfactory bulb, darling! It's like the brain's personal fragrance department, responsible for processing all those delightful scents you encounter. So, next time you catch a whiff of something funky, just thank your trusty olfactory bulb for doing its job!
8 answers
taste
1 answer
The olfactory system sends information directly to the olfactory bulb, which is located in the brain. From there, the information is processed in regions of the brain such as the olfactory cortex and limbic system, which are involved in processing smells and emotions.
2 answers
The mechanism of the olfactory system can be divided into a peripheral one, sensing an external stimulus and encoding it as an electric signal in neurons, and a central one, where all signals are integrated and processed in the central nervous system. The peripheral olfactory system receptors are connected to bipolar olfactory receptor neurons in the olfactory epithelium.
Fot the central olfactory system, axons from the olfactory sensory neurons converge in the olfactory bulb.
1 answer
The olfactory cortex, specifically the primary olfactory cortex located in the temporal lobe, is primarily involved in the conscious perception of smell. This area processes the information received from the olfactory bulb to help identify and interpret different odors.
2 answers
The olfactory area is found within the temporal lobe of the brain, specifically in the primary olfactory cortex which includes the piriform cortex and olfactory bulb. This area is responsible for processing smells and olfactory information.
2 answers
The receptors that actually bind with the molecules that we smell are called Olfactory receptor neurons. They pass their signal through the caribform plate, then down the olfactory nerve, and finally to the olfactory bulb in the brain.
1 answer
So, we just learned this in anatomy.
You breathe in an odogen. The odogen binds with protein receptors in the olfcatory cilium. A potential travels on an axon the olfactory receptor cells synapsing in the olfactory bulb. Then the filaments of the olfactory nerve synapses with mitral cells causing impulses to flow from the olfactory bulbvia the olfactory tracts.
1 answer
Olfactory impulses are carried to the brain by olfactory nerve fibers, which are specialized nerve cells located in the roof of the nasal cavity. These nerve fibers send signals to the olfactory bulb located in the brain, where the information is processed and interpreted as different smells.
1 answer
The olfactory bulb, located in the front of the brain, is primarily responsible for the sense of smell. It processes information from olfactory receptors in the nose and helps identify different odors.
7 answers
olfactory bulbs larger in sheep like the rat we dissected as well because of the need for heightened sense of smell for food, predators etc. these defense and survival mechanisms are more needed in sheep than humans.
2 answers
In an olfactory reflex, sensory neurons in the olfactory epithelium detect a smell stimulus. This information is then transmitted to the brain's olfactory bulb, which processes and interprets the smell signal. The brain then initiates a response, such as triggering memories, emotions, or behavioral reactions associated with the specific smell detected.
1 answer
Olfactory nerve. Olfactory nerve fibers arise from olfactory receptor cells located in olfactory epithelium of nasal cavity and pass through cribriform plate of ethmoid bone to synapse in olfactory bulb.
2 answers
Olfactory information (smell) is not paired with a specific cortical lobe in the same way other sensory information is. Instead, olfactory information is primarily processed in the olfactory bulb and olfactory cortex, which are parts of the limbic system and temporal lobe.
2 answers
The olfactory tract is the fiber tract involved with olfaction, responsible for carrying sensory information related to smell from the olfactory bulb to the olfactory cortex in the brain. This pathway allows for the recognition and interpretation of different odors.
2 answers
The taste buds on the tongue and the sensory organs in the olfactory bulb.
1 answer
The cerebral interpretation of smell occurs in the olfactory bulb and the olfactory cortex, which are parts of the brain located in the frontal lobe. These regions process sensory information related to smell and help to identify and interpret various odors.
3 answers
The inhibitory cells in the olfactory bulbs are called granule cells. They are involved in regulating the activity of the mitral and tufted cells, which are the principal output neurons in the olfactory bulb. Granule cells help shape and refine olfactory information processing in the brain.
3 answers
Quite a few, depending on what sensation you're interested in,
but the cribiform plate is actually a part of the brain (the olfactory lobe), the only part of the brain that connects to the outside world directly.
5 answers
The olfactory bulb is the part of the brain responsible for processing and interpreting smell. It is located in the forebrain, near the front of the brain. Signals from the olfactory bulb are then sent to other parts of the brain for further processing and interpretation of scents.
5 answers
The smell center in the brain is called the olfactory bulb. You'll find a link below.
1 answer
the olfactory bulb is located above the cribriform plate
2 answers
The part above the tongue is splushed and feels very rotten,
minor headache
1 answer
The olfactory bulb in sheep is large because sheep rely heavily on their sense of smell to navigate their environment, identify familiar scents, and detect predators. A large olfactory bulb allows for a greater number of olfactory receptor neurons, enhancing the sheep's ability to detect and differentiate a wide range of smells.
2 answers
Nasal input travels through the olfactory nerve to the olfactory bulb, located at the front of the brain. From there, information is processed and sent to various brain regions, including the olfactory cortex, limbic system, and other areas involved in odor perception and memory.
1 answer
Olfactory nerves act as transducers - changing chemical signals, as when an odor chemical binds to its receptor at an olfactory dendritic nerve ending, into nerve impulses - that is (i.e.) biological signals. These reside in the mucous membrane.
Nerve fibers leave the olfactory cells and enter the skull through the ethmoid bone, then disappear into the 'olfactory bulb' located at the anterior end of the 'olfactory tract', which then leads to the frontal - and eventually the temporal - lobe of the cerebrum.
6 answers
The olfactory bulb is the structure in the brain that receives and processes information about odors transmitted from the olfactory receptors in the nasal cavity. This information is then further processed in the brain's olfactory cortex, allowing us to perceive and identify different smells.
2 answers