amount of machinery and equipment / size of factory building
Plant cells contain unique components such as chloroplasts, cell walls made of cellulose, and large central vacuoles. These structures are not present in animal cells and serve specific functions in plant cells, such as photosynthesis, providing structural support, and storing nutrients and waste.
Plant cells have several key components, including a cell wall, chloroplasts, and a large central vacuole. These components are unique to plant cells and are not found in animal cells. The cell wall provides structural support and protection, chloroplasts are responsible for photosynthesis, and the central vacuole helps maintain turgor pressure and store nutrients. Animal cells do not have a cell wall, chloroplasts, or a central vacuole, but they do have other organelles such as lysosomes and centrioles that are not typically found in plant cells.
The Olin Corp's Augusta, Georgia facility has an estimated ECU capacity of 120,000 annually. The breakdowns are as follows: 120,000 tons chlorine capacity per year 132,000 tons of caustic soda capacity per year From KA Steel Chemicals, Inc. 2003. "Plant and Terminal Map." [http://www.kasteelchemicals.com/terminal_map.cfm].
Essentially plant cells and animal cells share all of the same basic components. Nucleus, Ribosome, Golgi, Mitochondria, Endoplasmic Reticulum and the list goes on. Plant cells have three structures that animal cells do to not. They are a Cell wall that is outside the plasma membrane, chloroplasts, and vacuoles.
Plant cell walls are rigid due to the presence of cellulose fibers, which provide structural support and strength. Other components such as hemicellulose and lignin also contribute to the rigidity of plant cell walls. The arrangement of these components in a matrix-like structure adds further strength to the cell wall.
Aerobic capacity
The capacity of a tidal power plant can vary depending on its size and location. On average, a tidal power plant can have a capacity ranging from a few megawatts to several hundred megawatts. It is important to consider factors such as tidal range and flow velocity when determining the capacity of a tidal power plant.
Nominal capacity is the rate at which the parties involved would like for the plant to operate. Design capacity is the rate at which the designers have engineered the plan to operate.
A power plant's capacity is typically measured in megawatts (MW), which refers to the amount of electricity the plant can generate at a given moment. The specific capacity of a power plant can vary widely depending on the type of plant and its size. For example, a large coal or nuclear power plant may have a capacity of several hundred megawatts, while a smaller solar or wind farm may have a capacity of a few megawatts.
in a plant, everywhere in a plant as they are plant cells
What is the difference between a deciduous plant and an evergreen plant
these components include:- plant,purchasing,manufacturing process and people
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Plant material is the main structural component of plants.
The capacity of a power plant is measured in megawatts (MW) and represents the maximum amount of electricity that the plant can produce under specific operating conditions. It indicates the peak power output that the plant is capable of generating at any given time.
The two main components of soil are organic matter, such as decaying plant and animal material, and inorganic matter, such as minerals and rocks. These components provide essential nutrients and structure for plant growth.
water,sunlight,and oxygen,and carbon dioxide