In eukaryotic cells that are very metabolically active (such as liver or muscle cells) you will find a lot of mitochondria.
These will produce ATP via the electron transfer chain to be used as cellular energy.
mitochondria are the "power houses" of the cell.
mitochondria.
mitochondria
Active cells such as muscle and liver cells have more mitochondria than others because they use up a lot more energy to carry out their roles and stay alive. Thus needing the extra mitochondria to produce more energy.
The number of mitochondria indicates the energy need of a particular cell; meaning, if a cell has a large number of mitonchoria, that cell (for example a muscle cell) must have a high demand for energy.
It can be stored in the muscle or adipose tissue as a triglyceride for later use
The shape of nerve cells makes them great for communicating signals between the brain and the rest of the body. Their great lenght helps these signals reach the brain quickly. A nerve cell's branching structure can connect several parts of the body at once
Robert hooke -Was the first person to discover cells, while observing cork he Noticed that he Saw a great many boxes, He called these tiny boxes cells.
gravitational pull
a large surface area
a large surface area
Because the energy released by nuclear fission is extremely great compared with the energy released by coal burning.
The inner membrane is folded on itself multiple times in structures called "christae". These folds dramatically increase the surface area within the mitochondrion, which increases how much energy the organelle can make.
The inner membrane is folded on itself multiple times in structures called "christae". These folds dramatically increase the surface area within the mitochondrion, which increases how much energy the organelle can make.
The inner membrane is folded on itself multiple times in structures called "christae". These folds dramatically increase the surface area within the mitochondrion, which increases how much energy the organelle can make.
The inner membrane is folded on itself multiple times in structures called "christae". These folds dramatically increase the surface area within the mitochondrion, which increases how much energy the organelle can make.
YES But only if you don't consider the massive amounts of energy required to make the wind turbine and get it into position. The actual energy conversion from wind to electricity is not great but it is free.
YES But only if you don't consider the massive amounts of energy required to make the wind turbine and get it into position. The actual energy conversion from wind to electricity is not great but it is free.
You need a lot energy to melt the metal compound and then you'd need a great deal of electrical energy to extract the metal from the molten compound.
Cells get energy from the food you eat. In particular, cells get energy from ATP which is product of cellular respiration in many organisms and photosynthesis in plants. When ATP is cleaved and leaves a phosphate (Pi) and ADP this reaction releases a great amount of energy, which can then be used by the cell.