What is the primary bark?
The primary cortex represents several different areas of the outer gray tissue layer in the human brain that are responsible for higher brain functions including mostly sensory input processing. These include the primary auditory, visual and somatosensory areas of the bark responsible for interpreting sound, vision and tactile sensory information, as well as the primary areas of Gustator and olfactory bark, which interpret the senses of taste and odor. The higher brain functions of the controlled sections of the brain of primary skin also include orbitofrontal bark, which regulates emotional reactions and controls rage as well as the primary motor cortex that controls the movement of the body. The primary areas of the cortex for the senses of vision, smell and sound are relatively small areas of the whole brainšechno are found in significantly different areas. The visual cortex is one of the largest areas of the primary bark and exists on the back of the brain as the end edge of the occipital lobe. The primary bark for auditory information is located in a time lobe behind the ears where the real auditory barkIt receives sound information from the left hemisphere and vice versa. The fragrance bark for the aroma is in the interior of the forward area of the brain known as the frontal lobe and the taste for taste is close to it in the temporal lobe.
motor cortex and somatosensory cortex form different structural shapes and occupy different areas of the brain than the primary areas of the bark for the dominant senses. The control of movement and the palpable sense is regulated by two wide strips of cortical tissue that stretch through the central brain area of the jokes of the central sulcus and the parietal lobe. The orbitofrontal bark, which is known to play a role in the regulation of emotions, is located along the bottom, a protected part of the frontal lobe of the brain.
Although the primary areas of the brain structure are vital to everyday life, they do not perform sensory tasks in themselves. For example, the somatosensory bark that processes tactile information is directly mapped to the sensory sigThe cities along the entire surface of the human body in a complex structure, which is referred to as somatotopia. The auditory bark relies on the sound transmitted to the ears to convert it to the tongue, and the olfactory bulb or the bark area depends on 40,000,000 olfactory receptors in the human nose to detect odors.