Heat energy!!
Muscle cells typically have more mitochondria compared to other animal cells. This is because mitochondria are responsible for producing energy in the form of ATP, which is essential for muscle contraction and movement. The abundance of mitochondria in muscle cells supports their high energy demands.
In muscle cells, chemical energy stored in ATP molecules is converted into mechanical energy during muscle contraction. This process involves the hydrolysis of ATP to release energy that powers the interactions between proteins within muscle cells, leading to muscle movement.
Cellular Respiration is when plant and animal cells release energy stored in the bonds of glucose molecules.
muscle cells...
Glucose is stored in the liver and muscles in the form of glycogen. When blood sugar levels are high, excess glucose is converted to glycogen for storage. This stored glycogen can be broken down back into glucose when needed for energy.
Muscle cells primarily rely on glucose and fatty acids as their main sources of energy. During periods of high energy demand, such as exercise, muscle cells can also utilize stored glycogen and ketone bodies for fuel. This allows muscles to function efficiently and adapt to different energy demands.
Both animal and plant cells have mitochondria , power houses that convert energy stored.
the food is stored in the vacuole. there are more than one average sized vacuoles in animal cells that store food, waste, and water, and in plant cells, there is one large one that stores almost all water.
Glycogen is stored inside the cell in the cytoplasm. It is primarily found in the liver and muscle cells, where it serves as a form of energy storage that can be broken down into glucose when needed for energy.
If your body does not have any use for the glucose, it is converted into glycogen and stored it in the liver and muscles as an energy reserve. Your body can store about a half a day's supply of glycogen. If your body has more glucose than it can use as energy, or convert to glycogen for storage, the excess is converted to fat.
ATP is produced in both animal cells and plants cells. It may be helpful to think of ATP as a battery that gets charged, and as soon as it is charged, it can off a spark of energy that can be used to do work in the body.
During physical exercise, the stored energy in carbohydrates, fats, and other molecules in your cells is converted through a series of chemical reactions into adenosine triphosphate (ATP), which is the energy currency used for muscle contraction. This conversion process provides the energy needed for muscle contractions and movement.