well if you look closley it is not nucleus
Specialized cell structures are designed to perform specific functions within a cell. The structure of these organelles is adapted to support their specialized function. For example, the shape and composition of mitochondria are optimized for energy production through cellular respiration.
One example of a structure in eukaryotic cells that acts like a specialized organ is the mitochondria. Mitochondria are responsible for producing energy in the form of ATP through cellular respiration. They have their own unique DNA and specialize in generating energy for the cell.
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Prokaryotes produce energy through a process called cellular respiration, where they break down molecules like glucose to release energy in the form of ATP. This process occurs in the cell's cytoplasm and can also take place in specialized structures called mitochondria in some prokaryotes.
not a single structure but plenty of them; it moves and movements cost lots of energy
well if you look closley it is not nucleus
well if you look closley it is not nucleus
Specialized cell structures are designed to perform specific functions within a cell. The structure of these organelles is adapted to support their specialized function. For example, the shape and composition of mitochondria are optimized for energy production through cellular respiration.
what is a molecule
they nake starch and produce energy for the plant.
chloroplast
One example of a structure in eukaryotic cells that acts like a specialized organ is the mitochondria. Mitochondria are responsible for producing energy in the form of ATP through cellular respiration. They have their own unique DNA and specialize in generating energy for the cell.
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Electrons can carry energy, such as kinetic energy or electrical energy, as they move within an electrical circuit or in an atomic structure. However, electrons themselves do not produce energy; rather, they can transfer energy from one system to another.
A chloroplast is a specialized structure found in plant cells that is responsible for photosynthesis, the process by which plants convert sunlight into energy. Inside the chloroplast, chlorophyll pigment absorbs light energy to produce glucose and oxygen.
Most plants have the ability to photosynthesize, utilizing sunlight to produce energy. They also have cell walls made of cellulose to provide structure and support. Additionally, plants typically have specialized structures for reproduction, such as flowers or cones.
Chloroplasts are adapted to their function through specialized structures like thylakoids and grana for photosynthesis. They contain chlorophyll pigments that capture light energy and convert it into chemical energy. Their double membrane allows for compartmentalization of processes, optimizing energy production.