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∙ 6y agotrue
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∙ 6y agoTrue. As a cell grows larger, its volume increases more quickly than its surface area. This is because volume is determined by the cube of the linear dimension (x^3), while surface area is determined by the square of the linear dimension (x^2). This can lead to issues with nutrient and waste exchange as the cell grows larger.
As a cell grows larger, its volume increases faster than its surface area, leading to a decrease in the surface area-to-volume ratio. This can limit the cell's ability to efficiently exchange materials with its environment, affecting its overall functioning.
As a cell grows, its volume increases faster than its surface area. This is because volume increases cubically with size, while surface area only increases quadratically. This can lead to challenges in nutrient exchange and waste removal for larger cells.
Yes, as cell surface area increases, the cell volume increases at a faster rate. This is because the surface area to volume ratio decreases as the cell grows larger, which can affect the efficiency of nutrient uptake and waste removal within the cell.
d. surface area increases and the volume does not increase at the same rate, leading to a decrease in surface area to volume ratio.
As the cell gets bigger, the surface to volume ratio gets smaller.
The cell's ratio of surface area to volume would decrease if its volume increases more rapidly than its surface area.
As a cell increases in size, its volume increases more rapidly than its surface area. This is because volume increases cubically with size, while surface area only increases squared. This can create challenges for the cell in terms of nutrient exchange and waste removal as the cell grows larger.
The volume of a cell grows more rapidly than its surface area. This is because volume increases with the cube of the cell's size, while surface area increases with the square of the cell's size. This has implications for processes like nutrient exchange, as a larger cell may struggle to adequately supply its interior with nutrients and remove waste.
This is because volume is cubic, while surface area is squared. As a result, when an object increases in size, its volume increases at a faster rate than its surface area. This phenomenon is why small organisms, with a large surface area relative to their volume, can exchange gases and nutrients more efficiently than larger organisms.
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it decreases
As volume increases surface area increase, but the higher the volume the less surface area in the ratio. For example. A cube 1mmx1mmx1mm has volume of 1mm3 surface area of 6mm2 which is a ration of 1:6 and a cube of 2mmx2mmx2mm has a volume of 8mm3 and surface area of 24mm2 which is a ratio of 1:3.
As the cell size increases, the surface area to volume ratio decreases. This is because the volume of the cell increases at a faster rate than its surface area. A low surface area to volume ratio can impact the cell's ability to efficiently exchange nutrients, gases, and waste with its environment.
The Volume increases faster than the Surface Area
Surface area increases as the square of the diameter, whereas the volume increases by the cube.
The ratio decreases.
The ratio decreases.