With cells, the rule of thumb is, structure defines function. Different cells throughout the body perform different functions. To perform these functions, they need different shapes. They all have the same DNA, but different "blueprints" are activated depending on where they are in the body.
False. In a multicellular organism, cells have different shapes and functions that perform specific roles in the organism. Specialization of cells allows for division of labor and enables the organism to carry out complex functions efficiently.
Cells have different shapes and appearances based on their specialized functions within the organism. For example, nerve cells have long extensions to transmit electrical signals, while red blood cells are disc-shaped to maximize oxygen transport. The cell's structure and shape are determined by its internal components and external environment to efficiently carry out its specific role in the body.
Different cells have different shapes so that they can perform different functions. For example, red blood cells are shaped like a doughnut so that they can carry more hemoglobin. So cells can also extend so that they can absorb more nutrients by increasing their surface area to volume ratio. But to put it simply, the formation of odd shaped cells is just the result of evolution. Cells evolve to become more efficient so that they can better complete their job in the organism.
The smallest units or building blocks of all living things are cells. Cells are the basic structural and functional units of life and come in many different shapes and sizes depending on the organism.
Different cells in a multicellular organism have specialized functions that help the organism to survive and function efficiently. Each type of cell is uniquely adapted to perform specific tasks, such as nerve cells for signaling, muscle cells for movement, and blood cells for transporting oxygen. This division of labor allows the organism to carry out complex functions necessary for its overall health and well-being.
To perform different functions plant cells assume different shapes
Organism is made of cells but cell is not made of organism thts why cell and org are different.
Cells have different shapes and sizes to fulfill specific functions within an organism. The shape and size of a cell determine its ability to perform certain tasks, such as movement, absorption, or secretion. This diversity allows for the efficient functioning of different tissues and organs in multicellular organisms.
False. In a multicellular organism, cells have different shapes and functions that perform specific roles in the organism. Specialization of cells allows for division of labor and enables the organism to carry out complex functions efficiently.
they are different shape s because they are different cells
Cells are different shapes and sizes because they have different functions. The functions dictate the shapes and sizes.
Cells have different shapes and appearances based on their specialized functions within the organism. For example, nerve cells have long extensions to transmit electrical signals, while red blood cells are disc-shaped to maximize oxygen transport. The cell's structure and shape are determined by its internal components and external environment to efficiently carry out its specific role in the body.
Yes cells can be different sizes and shapes. There are also 2 different types of cells Prokaryotic and Eukaryotic. The difference is that Prokaryotic are single cellar and also are bacteria cells. Eukaryotic cells are multi cellar and also are animal and plant cells.
Chlorenchyma and palisade cells
Cell shapes are Genetically Determined by and through Biochemistry.
No, all cells have different shapes. The blood cells and skin cells are definitely different! Also, plant and animal cells are different: plant cells are box-like shaped.
cell are the basic building block of an organism .they are present every where in body.cells are different in shapes and size because they have to perform there functions accordingly where they are present.