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Why would model B be better for moving nutrients in and out of the cell?
Model B may be better for moving nutrients in and out of the cell because it incorporates carrier proteins that can facilitate specific transport of nutrients across the membrane. These carrier proteins can selectively bind to certain nutrients and transport them across the membrane more efficiently than simple diffusion.
How does it surface area to volume ratio change as the cell gets bigger?
As a cell gets bigger, its volume increases more rapidly than its surface area. This results in a decreased surface area to volume ratio. A smaller surface area to volume ratio can affect the cell's ability to efficiently exchange nutrients and wastes with its environment.
How does surface to volume ratio relate to the size of a cell?
As the cell gets bigger, the surface to volume ratio gets smaller.
If the volume of a cell increases its surface area will?
increase as well, but at a slower rate than the volume. This is due to the relationship between surface area and volume in a cell. As the cell grows, its surface area to volume ratio decreases, causing it to become less efficient at exchanging nutrients and wastes with its environment.
Which is NOT related to a cell's ratio of surface area to volume?
The number of chromosomes present in the cell is not directly related to its ratio of surface area to volume. The surface area to volume ratio is important for determining the cell's ability to exchange nutrients and waste products with its environment efficiently.
Two models of cells are shown below. Why would model B be better for moving nutrients in and out of the cell?
B has smaller cells but more surface area than A.
Why would model B be better for moving nutrients in and out of the cell?
Model B may be better for moving nutrients in and out of the cell because it incorporates carrier proteins that can facilitate specific transport of nutrients across the membrane. These carrier proteins can selectively bind to certain nutrients and transport them across the membrane more efficiently than simple diffusion.
Why are groups at small cells better than one large cell at moving material in and out?
They have a greater surface-to-volume ratio
Why are groups of small cells better than one cell of moving material in and out?
They have greater surface area-to-volume ratios.
What is ratio of surface area to volume?
surface area/ volume. wider range of surface area to volume is better for cells.
What is the surface area to volume ratio?
surface area/ volume. wider range of surface area to volume is better for cells.
What relationship between surface area and volume must organisms achieve to ensure efficient delivery of nutrients?
Organisms need to have a high surface area to volume ratio to efficiently deliver nutrients. This allows for more surface area through which nutrients can be absorbed, reducing the distance that nutrients need to travel to reach cells inside the organism. This helps to maintain a balance between the intake of nutrients and the needs of the organism for growth and function.
The larger the cell the more trouble it has moving water and nutrients through the what?
The larger the cell, the more trouble it has moving water and nutrients through the cell membrane. This is because as the cell size increases, the surface area to volume ratio decreases, making it harder for molecules to diffuse across the membrane efficiently.
Why are small cells better then large cells for moving materials through membranes?
small cells have a greater surface-to-volume ratio than larger cells.
Why are groups of a small cells better than one large cell at moving material in and out?
they have a greater surface-to-volume ratio
How does it surface area to volume ratio change as the cell gets bigger?
As a cell gets bigger, its volume increases more rapidly than its surface area. This results in a decreased surface area to volume ratio. A smaller surface area to volume ratio can affect the cell's ability to efficiently exchange nutrients and wastes with its environment.
How does surface to volume ratio relate to the size of a cell?
As the cell gets bigger, the surface to volume ratio gets smaller.
