Mitochondria are too small to release as much energy as you need singly.
Mitochondria would be most numerous in highly active cells that require significant energy, such as muscle cells, particularly cardiac muscle cells. These cells rely on aerobic respiration to meet their energy demands during contraction. Additionally, neurons in the brain also contain numerous mitochondria to support their high metabolic activity.
Mitochondria are more numerous in muscle cells than in skin cells. Mitochondria give the muscle cells energy. Skin cells do not need as much energy to survive.
Mitochondria and rough endoplasmic reticulum
Mitochondria would be more numerous in muscle cells than in skin cells, as muscles require more energy to function. Additionally, myofibrils (contractile units) and sarcoplasmic reticulum (stores calcium ions) would also be more abundant in muscle cells compared to skin cells.
This description matches the structure of mitochondria. The outer membrane of mitochondria surrounds the organelle, while the inner membrane is folded into numerous layers called cristae, which help increase the surface area for energy production through oxidative phosphorylation.
mitochondria
Mitochondria
If a cell is very active, it would need to have a large number of Mitochondria.
Mitochondria would be most numerous in highly active cells that require significant energy, such as muscle cells, particularly cardiac muscle cells. These cells rely on aerobic respiration to meet their energy demands during contraction. Additionally, neurons in the brain also contain numerous mitochondria to support their high metabolic activity.
Mitochondria are most numerous in cells with high energy demands, such as muscle cells and liver cells. These cells require a lot of energy for activities like muscle contractions and detoxification processes, so they have more mitochondria to efficiently produce ATP through aerobic respiration.
Mitochondria are more numerous in muscle cells than in skin cells. Mitochondria give the muscle cells energy. Skin cells do not need as much energy to survive.
mitochondria are the power house of the cell.since the basket ball players are using their hands often, their hand muscles might be having numerous mitochondria.
Mitochondria and rough endoplasmic reticulum
Other than the cells themselves, the mitochondria (or perhaps other plastids), are much smaller and more numerous.
Mitochondria would be more numerous in muscle cells than in skin cells, as muscles require more energy to function. Additionally, myofibrils (contractile units) and sarcoplasmic reticulum (stores calcium ions) would also be more abundant in muscle cells compared to skin cells.
Most eukaryotic cells have more than one mitochondria. Mitochondria are known as the powerhouse of the cell and generate energy through ATP production, so cells with high energy demands like muscle cells or liver cells often have numerous mitochondria.
This description matches the structure of mitochondria. The outer membrane of mitochondria surrounds the organelle, while the inner membrane is folded into numerous layers called cristae, which help increase the surface area for energy production through oxidative phosphorylation.