Plant cells can be classified based on their structure, shape, and function. Some key criteria include the presence of a cell wall made of cellulose, large central vacuole, chloroplasts for photosynthesis, and the ability to undergo photosynthesis and produce their food through the presence of chlorophyll. Additionally, plant cells may be classified based on their role in the plant, such as root cells, leaf cells, or stem cells.
Scientists use a variety of criteria, such as genetic information, cell structure, and metabolic processes to classify organisms into different Kingdoms. This classification is based on similarities and differences in these criteria among organisms. The current system of classification uses three domains (Bacteria, Archaea, Eukarya) and further divides organisms into six Kingdoms (Animalia, Plantae, Fungi, Protista, Archaea, Bacteria) based on these criteria.
Some criteria to determine if a cell is from a plant or an animal include its shape and size, presence of specific organelles like chloroplasts (indicating plant cell) or centrioles (indicating animal cell), cell wall composition (plants have cellulose cell walls), and mode of nutrition (autotrophic for plants, heterotrophic for animals). Further analysis with a microscope and specific staining techniques can also provide additional clues.
Scientists use various plant parts to classify plants, including flowers, seeds, leaves, stems, and roots. These parts help scientists determine the unique characteristics and relationships between different plant species.
Ecologists classify aquatic ecosystems based on factors such as water depth, flow rate, temperature, salinity, and the presence of vegetation. These criteria help to differentiate between different types of aquatic ecosystems, such as rivers, lakes, wetlands, and estuaries, and understand their unique characteristics and functions.
You can infer the basic structure and characteristics of the organism, such as shape, size, presence of organelles, and possibly its function (e.g., plant cell with chloroplasts for photosynthesis). Further tests would be needed for a more detailed identification.
Scientists use a variety of criteria, such as genetic information, cell structure, and metabolic processes to classify organisms into different Kingdoms. This classification is based on similarities and differences in these criteria among organisms. The current system of classification uses three domains (Bacteria, Archaea, Eukarya) and further divides organisms into six Kingdoms (Animalia, Plantae, Fungi, Protista, Archaea, Bacteria) based on these criteria.
1. Cell type (prokaryote or eukaryote) 2. Cell structure (if has cell walls, if so, what they're made of) 3. Number of cells 4. The way they eat (autotroph or heterotroph)
When you want to classify elements of an organisation according to two or more criteria.
Some criteria to determine if a cell is from a plant or an animal include its shape and size, presence of specific organelles like chloroplasts (indicating plant cell) or centrioles (indicating animal cell), cell wall composition (plants have cellulose cell walls), and mode of nutrition (autotrophic for plants, heterotrophic for animals). Further analysis with a microscope and specific staining techniques can also provide additional clues.
a network must be able to meet a certain number of criteria. THE most importantof these are PERFORMANCE, RELIABILITY, SECURITY.ARUN BINDRA
Mainly floral parts.
its help in plant cell growth.
in cells and genetics
Plant
coz it is one of the basis for classification...
you can not classify this. How can you classify them?
chloroplast are only in plant cells, they use photosynthesis to make ATP which is energy for the cell.