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Cells are not all the same because they have different structures and functions that allow them to perform specific tasks in the body. Each type of cell is specialized to carry out a particular function, such as muscle cells contracting or nerve cells transmitting signals. This diversity in structure and function is essential for the proper functioning of the body as a whole.
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What are the differences between prokaryotes and eukaryotes and how do these distinctions impact their cellular structures and functions?
Prokaryotes are simple cells without a nucleus, while eukaryotes have a nucleus and other membrane-bound organelles. This difference impacts their cellular structures and functions because eukaryotic cells have compartmentalized organelles that allow for more specialized functions, while prokaryotic cells have a simpler structure and fewer specialized functions.
What cells perform different functions?
Different cells are different in structure because of their different functions (e.g. plant cells have cell walls because they don't have bones). Also, cells have different functions because they work together with other cells to create a working system (e.g. the human body)
Do cells in your body all have the same structure and different functions?
No, cells in the body have different structures and functions depending on their type. For example, red blood cells are specialized for carrying oxygen, while muscle cells are specialized for contraction. Each cell type has unique adaptations to carry out its specific function in the body.
How do structures within cell allow the cell to be specialized?
The structures allow the cell to perform specific functions.
Why are plant cells organized differently then animal cells?
Cells are organized according to their function. The function that a cell needs to carry out dictates how it looks, how it functions and what kind of tissue it forms. Plants have very different functions than animals and therefore need different types of cells organized in a different way.
What are Cells that have their own unique structures and functions?
Cells with their own unique structures and functions are specialized cells, such as nerve cells, muscle cells, and sperm cells. These cells have distinct shapes and functions that allow them to perform specific tasks within the body. Each specialized cell type has adaptations that make them well-suited for their particular function.
Why don't all cells demonstrate the presence of all intracellular structures?
Not all cells demonstrate the presence of all intracellular structures because cells are specialized and have specific functions. Different cells require different intracellular structures to carry out their unique functions. For example, muscle cells have more mitochondria to generate energy for contraction, while red blood cells lack a nucleus to make more space for carrying oxygen.
Would you expect all human cells to look like cheek cell?
No, different types of human cells have unique shapes and structures based on their functions. Cheek cells are flat and irregularly shaped because they are protective epithelial cells. Other cells in the body, such as nerve cells or muscle cells, have different shapes that suit their specific roles.
Why do cells look different?
Cells look different because they have specialized structures and functions that are necessary for their specific roles in the body. Different types of cells have different shapes, sizes, and organelles that enable them to carry out their specific functions. For example, nerve cells have long extensions called axons that allow them to transmit electrical signals, while muscle cells have a unique contractile structure that enables them to generate force for movement.
What are the differences between prokaryotes and eukaryotes and how do these distinctions impact their cellular structures and functions?
Prokaryotes are simple cells without a nucleus, while eukaryotes have a nucleus and other membrane-bound organelles. This difference impacts their cellular structures and functions because eukaryotic cells have compartmentalized organelles that allow for more specialized functions, while prokaryotic cells have a simpler structure and fewer specialized functions.
What are the four types of eukaryotic cells?
The four types of eukaryotic cells are animal cells, plant cells, fungal cells, and protist cells. Each type of cell has unique structures and functions that distinguish them from one another.
Which structures carry life functions within cells?
organells
Do cells in your body all have the same structure and different functions?
No, cells in the body have different structures and functions depending on their type. For example, red blood cells are specialized for carrying oxygen, while muscle cells are specialized for contraction. Each cell type has unique adaptations to carry out its specific function in the body.
What cells perform different functions?
Different cells are different in structure because of their different functions (e.g. plant cells have cell walls because they don't have bones). Also, cells have different functions because they work together with other cells to create a working system (e.g. the human body)
What three structures are found in plant cells and not in animal cells and why?
Plant cells have a cell wall for structure and support, chloroplasts for photosynthesis, and a central vacuole for storage of water and nutrients. These structures are unique to plant cells because they are essential for their specialized functions, such as providing rigidity, producing energy, and regulating osmotic balance.
Plant and animal cells have certain structures in common they also have certain structures that are different Why?
Plant and animal cells share common structures such as the nucleus, cell membrane, and mitochondria because they are essential for basic cellular functions. However, they have different structures like chloroplasts in plant cells for photosynthesis and centrioles in animal cells for cell division, reflecting their distinct functions and specialized adaptations to their environments.
How do structures within cell allow the cell to be specialized?
The structures allow the cell to perform specific functions.
