Sperm cells contain large numbers of mitochondria to provide the necessary energy for their journey to fertilize an egg. Mitochondria produce ATP through oxidative phosphorylation, which is essential for sperm motility and survival in the female reproductive tract. The high energy demand of sperm cells is met by the abundance of mitochondria in their midpiece, ensuring they have the energy needed to reach and penetrate the egg for fertilization.
Mitochondria are the power houses. Active cells have many
Skeletal muscle cells,cardiac muscle cells,sperm cells
Large numbers of mitochondria are typically found in cells that have high energy demands, such as muscle cells, liver cells, and cells of the heart. These organs and tissues require significant energy production to carry out their functions effectively.
Muscle cells contain organelles called mitochondria that require a large number of cells to produce energy through the process of cellular respiration. During muscle contraction, the membrane of the mitochondria can become depolarized as part of the energy production process.
The answer depends on what "these" cells might be - you didn't say in the question so we can't guess what you're talking about.
Mitochondria
Cells that contain a large number of mitochondria are typically found in tissues with high energy demands, such as muscle cells and liver cells.
A large number of mitochondria power the flagella of sperm cells.
mitochondria
Muscle cells and heart cells for two.
Mitochondria are the power houses. Active cells have many
Mitochondria, as they are responsible for producing energy in the form of ATP through cellular respiration. Cells that require a lot of energy, such as muscle cells or neurons, will have higher concentrations of mitochondria to meet their energy demands.
Skeletal muscle cells,cardiac muscle cells,sperm cells
Large numbers of mitochondria are typically found in cells that have high energy demands, such as muscle cells, liver cells, and cells of the heart. These organs and tissues require significant energy production to carry out their functions effectively.
that cells with high energy demands, such as muscle cells, have more mitochondria to produce ATP through aerobic respiration. Cells with fewer or no mitochondria may rely on other energy production methods or have lower energy demands.
Parietal cells are acidophilic because they contain a large number of mitochondria. The mitochondria, which are needed to pump hydrogen ions against their concentration gradient, are acidophilic; therefore, parietal cells are acidophilic as well.
Reticulocytes and Erythroblasts are two types of red blood cells that contain a high number of mitochondria. Reticulocytes are immature red blood cells in the process of maturing, and erythroblasts are precursor cells that mature into red blood cells, both requiring energy for their development processes.