They are both located in the corpora quadrigemina.
Cerebrum That is a pretty broad area, true that the occipital lobe of the cerebrum is our vision center and the temporarl lobe houses our auditory center, neither of these necessarily controls our reflexes of these senses. I believe the answer that they were looking for is the corpora quadrigemina, part of the midbrain that contains the superior colliculi and the inferioror colliculi, which help us react to/analyze visual and auditory sensations that we encounter
Raises four domelike protrusions on the dorsal mid-brain surface. The superior pair, the superior colliculus are visual reflex centers that coordinate head and eye movements when visually following a moving object even if not consciously knowing you are doing so. The inferior pair, the inferior colliculusare part of auditory relay from hearing receptors of the ear to the sensory cortex. They also act in reflexive responses to sound, such as the startle reflex which causes you to turn your head toward an unexpected noise.
The auditory functions are primarily controlled by the temporal lobe, specifically the auditory cortex. Visual functions are mainly controlled by the occipital lobe, particularly the visual cortex. Communication between various brain regions helps integrate auditory and visual information for perception and interpretation.
In general, there is no significant difference in visual reaction times between boys and girls. However, there may be a slight advantage for boys in terms of audio reaction times due to differences in brain processing. Overall, differences in reflexes between boys and girls are minimal and vary among individuals.
Visual information is processed by the occipital lobe in the brain, while auditory information is processed by the temporal lobe. These regions work together to integrate and make sense of sensory input from the environment.
Relay for visual and auditory reflexes
Cerebrum That is a pretty broad area, true that the occipital lobe of the cerebrum is our vision center and the temporarl lobe houses our auditory center, neither of these necessarily controls our reflexes of these senses. I believe the answer that they were looking for is the corpora quadrigemina, part of the midbrain that contains the superior colliculi and the inferioror colliculi, which help us react to/analyze visual and auditory sensations that we encounter
Raises four domelike protrusions on the dorsal mid-brain surface. The superior pair, the superior colliculus are visual reflex centers that coordinate head and eye movements when visually following a moving object even if not consciously knowing you are doing so. The inferior pair, the inferior colliculusare part of auditory relay from hearing receptors of the ear to the sensory cortex. They also act in reflexive responses to sound, such as the startle reflex which causes you to turn your head toward an unexpected noise.
The brainstem, specifically the superior olivary complex, is responsible for processing auditory reflexes such as the startle reflex and sound localization.
The structure responsible for conducting impulses between brain parts and controlling some eye reflexes is the midbrain. It plays a crucial role in coordinating basic movements and visual and auditory processing.
The auditory functions are primarily controlled by the temporal lobe, specifically the auditory cortex. Visual functions are mainly controlled by the occipital lobe, particularly the visual cortex. Communication between various brain regions helps integrate auditory and visual information for perception and interpretation.
Not sure what you are asking... but.... part of the brain stem...the midbrain contains reflex centers for head, eye and body movements in response to visual and auditory stimuli. For example, reflexively turning the head to enable better vision or better hearing is activated by the midbrain
Sensory memory is stored in different regions of the brain depending on the type of sensory information. For example, auditory sensory memory is primarily processed in the auditory cortex, while visual sensory memory is processed in the visual cortex.
In general, there is no significant difference in visual reaction times between boys and girls. However, there may be a slight advantage for boys in terms of audio reaction times due to differences in brain processing. Overall, differences in reflexes between boys and girls are minimal and vary among individuals.
Visual information is processed by the occipital lobe in the brain, while auditory information is processed by the temporal lobe. These regions work together to integrate and make sense of sensory input from the environment.
Illusions are created in the brain when sensory information is misinterpreted or distorted. Specific brain regions involved in processing sensory information, such as the visual cortex for visual illusions or the auditory cortex for auditory illusions, play a role in generating these perceptual phenomena. Illusions can occur due to the brain's tendency to fill in missing information or to rely on past experiences and assumptions when interpreting sensory input.
Simple reaction time studies show that RT to auditory stimuli is faster than visual stimuli. This is because the sensory process for light is more neurologically complex than for auditory cues. For light to be processed, it has a longer path to take in the brain, going all the way to the back of the brain to the occipital lobe and then back to the eyes. Auditory stimuli is processed in the ear then sent to the temporal lobe and back to the ear; a relatively shorter distance than the vision pathway. Reaction time to auditory cues in normal, healthy subjects is roughly 180 milliseconds for auditory cues and about 220 milliseconds.