Movement of flagella or cilia is a active process.So the energy requirement is high.
Muscle cells require an increased number of mitochondria because they need more energy to support their high levels of activity and movement. Mitochondria are the powerhouse of the cell, producing energy in the form of ATP through cellular respiration. More mitochondria means more ATP can be generated, providing the necessary energy for muscle contraction and movement.
Cells in the human body that have a large number of mitochondria are typically found in tissues that require a lot of energy, such as muscle cells and liver cells.
Cells with a large number of mitochondria are typically found in muscle cells, specifically in the heart and skeletal muscles. This is because these cells require a lot of energy to function properly and mitochondria are responsible for producing energy in the form of ATP through cellular respiration. The abundance of mitochondria in these cells helps meet their high energy demands for contraction and movement.
Muscle cells have the greatest number of mitochondria compared to other tissues' cells.
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.
A large number of mitochondria power the flagella of sperm cells.
mitochondria
more - because wings require relatively more energy (so that it can fly) in relation to other parts of its body.
Muscle cells require an increased number of mitochondria because they need more energy to support their high levels of activity and movement. Mitochondria are the powerhouse of the cell, producing energy in the form of ATP through cellular respiration. More mitochondria means more ATP can be generated, providing the necessary energy for muscle contraction and movement.
Cells in the human body that have a large number of mitochondria are typically found in tissues that require a lot of energy, such as muscle cells and liver cells.
Cells that require the most energy contain the most energy generating mitochondria. The cells of the brain, the skeletal muscle and heart muscle, and the eye contain the highest number of mitochondria (as many as 10,000 per cell) while the skin cells, which do not require much energy, contain only a few hundred of them.
The number of mitochondria in heart cells is significantly higher than in bone cells. Heart cells, or cardiomyocytes, require a substantial amount of energy to support their continuous and rhythmic contractions, leading to a high density of mitochondria. In contrast, bone cells have lower energy demands, resulting in fewer mitochondria. This difference reflects the distinct functional requirements of these tissues.
Running long distance will require more energy. For this number of mitochondria will increase in the muscles.
A cell with relatively few energy needs will probably have a relatively small number of mitochondria, as these organelles are responsible for producing ATP through cellular respiration. Additionally, such a cell may have fewer energy-demanding processes and a simpler metabolic pathway. This efficiency allows the cell to maintain its functions without expending unnecessary resources.
Mitochondria are required to regenerate rhodopsin (the pigment that absorbs photons in rod cell membranes) and also for the active transport of ions needed for action potentials to be generated and hence an impulse to occur
Cells with a large number of mitochondria are typically found in muscle cells, specifically in the heart and skeletal muscles. This is because these cells require a lot of energy to function properly and mitochondria are responsible for producing energy in the form of ATP through cellular respiration. The abundance of mitochondria in these cells helps meet their high energy demands for contraction and movement.
Muscles cells require vast amounts more mitochondria, in order to release the ATP energy necessary to contract and help us move.