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Why is a cheek cell so small?
Cheek cells are small because they are specialized epithelial cells that line the inside of the mouth and are designed for protection and absorption rather than size. Their small size allows them to efficiently cover the surface area of the cheek and perform their functions effectively.
Why did the large cells not destroy the small aerobic cells they engulfed?
The large cells did not destroy the small aerobic cells they engulfed because of a mutualistic relationship where both cells benefit from each other. The small aerobic cells provide energy in the form of ATP through aerobic respiration, benefiting the large cells by increasing their efficiency. In return, the large cells offer protection and a stable environment for the small aerobic cells to thrive.
What is small in animal cells but large in plant cells?
Vacuoles are small in animal cells but large in plant cells. They play a role in maintaining turgor pressure in plant cells and storing water, ions, and nutrients. In animal cells, vacuoles are smaller and more specialized in function.
What is the explanation for the fact that most cells are small and have cell membranes with many convolutions?
Small cells are better able to transport material more efficiently. Many convolutions increase the surface area of the cell, thus allowing for more interactions between the cell and its environment. A large cell has greater volume to its surface area and if this is too large, it will not get enough protein and oxygen.
Do large animals have llarger cells then small animals?
No they do not. They all have the same size of cells.
Why is a cheek cell so small?
Cheek cells are small because they are specialized epithelial cells that line the inside of the mouth and are designed for protection and absorption rather than size. Their small size allows them to efficiently cover the surface area of the cheek and perform their functions effectively.
Why can small cells exchange substance readily than large cells?
why can small cells exchange substances more readily than large cells?
Why would a group of small cells help an organism maintain homeostasis better than one large cell?
The group of small cells would have a greater surface area-to-volume ratio, so are able to exchange materials with their surroundings more efficiently.
Why must cells be small?
Cells must be small in order to efficiently exchange nutrients and waste with their environment through their cell membrane. Smaller cells have a higher surface area-to-volume ratio, allowing for faster diffusion of materials. Additionally, smaller cells can efficiently and quickly transport molecules within the cell.
What would work more efficiently 100 small cells 100 medium cells or 100 large cells 100 huge cells?
Cells are most efficient when they a greater surface area and smaller volume. The larger a cell gets, the more difficult transport becomes and the longer it takes to reach homeostasis. !00 smaller (Faster) cells are the most efficient of the options given.
Why did the large cells not destroy the small aerobic cells they engulfed?
The large cells did not destroy the small aerobic cells they engulfed because of a mutualistic relationship where both cells benefit from each other. The small aerobic cells provide energy in the form of ATP through aerobic respiration, benefiting the large cells by increasing their efficiency. In return, the large cells offer protection and a stable environment for the small aerobic cells to thrive.
Are prokaryotic cells small?
yes they are small and they have no nucleus unlike eukaryotic cells that do have a nucleus and are large.
What is small in animal cells but large in plant cells?
Vacuoles are small in animal cells but large in plant cells. They play a role in maintaining turgor pressure in plant cells and storing water, ions, and nutrients. In animal cells, vacuoles are smaller and more specialized in function.
Why can cells be so small and do so much?
Cells can be small because they have specialized structures that allow them to efficiently carry out functions like nutrient uptake, energy production, and waste removal. Despite their size, cells can perform diverse tasks due to their complex internal organization and the presence of organelles dedicated to specific functions, such as the nucleus for DNA storage and the mitochondria for energy production. Additionally, cells can communicate with each other to coordinate activities and collectively perform higher-level functions within an organism.
What is the explanation for the fact that most cells are small and have cell membranes with many convolutions?
Small cells are better able to transport material more efficiently. Many convolutions increase the surface area of the cell, thus allowing for more interactions between the cell and its environment. A large cell has greater volume to its surface area and if this is too large, it will not get enough protein and oxygen.
Why would a group of cells help an organism maintain homeostasis better than one large cell?
The group of small cells would have a greater surface area-to-volume ratio, so are able to exchange materials with their surroundings more 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.
