can someone answer the question
A folded membrane increases the surface area available for absorption. More surface area allows for more sites for passive transport.
This greatly increases the surface area of the membrane so that carbohydrates (simple sugars) can combine with oxygen to produce ATP.
I think you are referring to the cristae. These are the folded parts of the inner membrane. The purpose is to increase surface area of the inner membrane against the matrix. The membrane is the site of the energy transfer in the mitochondria, so having more surface area is a plus.
The rate of aerobic respiration in the mitochondria is dependent on the surface area of the cristae because energy potential is built up through the pumping of hydrogen ions across the membrane. With more membrane surface area, there is more energy production and storage capacity so the rate of aerobic respiration may increase.
yes, in some manner... rate of evaporation depends upon the surface area the liquid is covering. the more the surface area. the more the rate of evaporation. in this case, the more area the drop would cover on the body or on any surface, the more quickly the drop would evaporate!
It increases the surface area of the cell membrane. By having more surface area, more matter can be moved in and out of the cell.
A folded membrane increases the surface area available for absorption. More surface area allows for more sites for passive transport.
The folded inner membrane of the mitochondria greatly increases the surface area of the membrane so that carbohydrates (simple sugars) can combine with oxygen to produce ATP.
This greatly increases the surface area of the membrane so that carbohydrates (simple sugars) can combine with oxygen to produce ATP.
The folding of the mucosal membrane increases the surface area of your small intestine, thus allowing more nutrients to be absorbed.
it allows for a larger surface area so for example the mitochondria is used to make ATP and the enzymes that are used to make it are on the membrane, so the larger the membrane surface is, the more enzymes there are so more ATP is made
more volume decreases the surface area of the cell thus making the distance of transporting nutrients in and out of the cell less. so more volume is better
I think you are referring to the cristae. These are the folded parts of the inner membrane. The purpose is to increase surface area of the inner membrane against the matrix. The membrane is the site of the energy transfer in the mitochondria, so having more surface area is a plus.
It gives a cell greater surface area, if they are folded, they are more compact, allowing the cell to do more. /\/\/\/\/\/\/\/\ _______________ Both drawings have 16 segments of the same length. The one above is folded and is able to hold the same in less space, or more in the same space. /\/\/\/\/\/\/\/\ = 16 __________ = 10 (same space, but more area)
A high surface area to volume ratio allows the diffusion of water, nutrients, and wastes be more efficient. A higher surface area permits more substances through the cell membrane, and makes the diffusion process more effective and efficient. Hope this helped :)
If you're referring to a cell and it's membrane, then the greater the surface area of the outer cell membrane, the faster osmosis will occur. This is because the water will have more room to etner the cell through the membrane.
The rate of aerobic respiration in the mitochondria is dependent on the surface area of the cristae because energy potential is built up through the pumping of hydrogen ions across the membrane. With more membrane surface area, there is more energy production and storage capacity so the rate of aerobic respiration may increase.