The convolutions of the cerebellum increase its surface area, allowing for more neurons to be packed within a limited space. This increased surface area helps to enhance the cerebellum's ability to coordinate motor movements and maintain balance.
The convolutions on the cerebrum's surface are called gyri and sulci. Gyri are the raised folds, while sulci are the grooves that separate them. These convolutions increase the surface area of the brain, allowing for more neurons to be packed within the limited space of the skull.
To increase surface area, allowing greater contact area for 'transport' of nutrients (movement of substances across the membrane).
Organelles with many convolutions include the endoplasmic reticulum (ER) and mitochondria. The rough ER has ribosomes on its surface and extensive folding to increase surface area for protein synthesis, while the smooth ER is involved in lipid synthesis and detoxification. Mitochondria have inner membrane folds called cristae, which enhance their ability to generate ATP through cellular respiration. These convolutions maximize the organelles' functional capacities.
Cell membranes have many convolutions because they increasee the surface area to volume ratio, thus increasing the diffusion rate.
The answer is sulcus.
The convolutions on the cerebrum's surface are called gyri and sulci. Gyri are the raised folds, while sulci are the grooves that separate them. These convolutions increase the surface area of the brain, allowing for more neurons to be packed within the limited space of the skull.
The convolutions in the cerebrum increase surface area
The are convoluted to increase the amount of surface area that is available for chemical reactions and other interactions.
Convolutions create a greater surface area within the same size skull
To increase surface area, allowing greater contact area for 'transport' of nutrients (movement of substances across the membrane).
Convolutions of the brain provide increased surface area for more neurons to be packed in, allowing for greater processing power in a compact space. This increased surface area also enables more connections between neurons, facilitating complex information processing and cognitive functions.
The elevations on the surface of the cerebrum that resemble speed bumps are called gyri. They are the raised ridges on the brain's cortex that help increase surface area for more cognitive processing.
The convolutions in the brain increase surface area. In simpler words, those lines and ridges in the brain are what increases the surface area.
Organelles with many convolutions include the endoplasmic reticulum (ER) and mitochondria. The rough ER has ribosomes on its surface and extensive folding to increase surface area for protein synthesis, while the smooth ER is involved in lipid synthesis and detoxification. Mitochondria have inner membrane folds called cristae, which enhance their ability to generate ATP through cellular respiration. These convolutions maximize the organelles' functional capacities.
r cerebellum
Cell membranes have many convolutions because they increasee the surface area to volume ratio, thus increasing the diffusion rate.
The sheep cerebellum is much smaller than the human cerebellum.