Mitochondria - as this is where respiration (the conversion of glucose to ATP) occurs.
You would expect to find a large number of mitochondria in an eukaryotic cell that needs to produce a large amount of ATP. Mitochondria are the powerhouses of the cell and are responsible for producing ATP through cellular respiration. They are abundant in cells with high energy demands, such as muscle cells.
Yes, the amount of organelles will differ in cells depending on their function. For example, muscle cells will have more mitochondria to provide more energy. Some organelles will just be larger; for example, the smooth ER is responsible for detoxification. There will only be one smooth ER unit in every cell, but cells involved in detox like liver cells will have a larger smooth ER.
sunlight/temp./amount of water/food availability/abundance of predators
no
No, incandescent and fluorescent bulbs do not produce the same amount of heat.
Half
You calculate the total amount of whatever it is that you want to find the silicon abundance for. Then you calculate the amount f silicon in that. Then percentage abundance of silicon = 100*amount of silicon/total amount Typically the amount would be measured as the mass.
Example sentence - We have an abundance of junk in the attic.
Abundance or excess.
Lots. Abundance. Things galore.
i think the amount of an area is 30000000000000000
organelles and endoplasmic reticulam
Yes, the amount of organelles will differ in cells depending on their function. For example, muscle cells will have more mitochondria to provide more energy. Some organelles will just be larger; for example, the smooth ER is responsible for detoxification. There will only be one smooth ER unit in every cell, but cells involved in detox like liver cells will have a larger smooth ER.
Prokaryotic and eukaryotic DNA carry genetic information for the development, functioning and reproduction of prokaryotes and eukaryotes respectively. Eukaryotes consist of membranebound nucleus whereas prokaryotes lack a membrane­bound nucleus. Prokaryotic DNA is double­stranded and circular. But, eukaryotic DNA is double­strand and linear. The amount of DNA in prokaryotic cells is much less than the amount of DNA in eukaryotic cells. Both prokaryotic and eukaryotic DNA undergo replication by the enzyme DNA polymerase. The main difference between prokaryotic and eukaryotic DNA is that prokaryotic DNA is found in the cytoplasm whereas eukaryotic DNA is packed into the nucleus of the cell.
Prokaryotic and eukaryotic DNA carry genetic information for the development, functioning and reproduction of prokaryotes and eukaryotes respectively. Eukaryotes consist of membranebound nucleus whereas prokaryotes lack a membrane­bound nucleus. Prokaryotic DNA is double­stranded and circular. But, eukaryotic DNA is double­strand and linear. The amount of DNA in prokaryotic cells is much less than the amount of DNA in eukaryotic cells. Both prokaryotic and eukaryotic DNA undergo replication by the enzyme DNA polymerase. The main difference between prokaryotic and eukaryotic DNA is that prokaryotic DNA is found in the cytoplasm whereas eukaryotic DNA is packed into the nucleus of the cell.
Prokaryotic and eukaryotic DNA carry genetic information for the development, functioning and reproduction of prokaryotes and eukaryotes respectively. Eukaryotes consist of membranebound nucleus whereas prokaryotes lack a membrane­bound nucleus. Prokaryotic DNA is double­stranded and circular. But, eukaryotic DNA is double­strand and linear. The amount of DNA in prokaryotic cells is much less than the amount of DNA in eukaryotic cells. Both prokaryotic and eukaryotic DNA undergo replication by the enzyme DNA polymerase. The main difference between prokaryotic and eukaryotic DNA is that prokaryotic DNA is found in the cytoplasm whereas eukaryotic DNA is packed into the nucleus of the cell.
Prokaryotic and eukaryotic DNA carry genetic information for the development, functioning and reproduction of prokaryotes and eukaryotes respectively. Eukaryotes consist of membranebound nucleus whereas prokaryotes lack a membrane­bound nucleus. Prokaryotic DNA is double­stranded and circular. But, eukaryotic DNA is double­strand and linear. The amount of DNA in prokaryotic cells is much less than the amount of DNA in eukaryotic cells. Both prokaryotic and eukaryotic DNA undergo replication by the enzyme DNA polymerase. The main difference between prokaryotic and eukaryotic DNA is that prokaryotic DNA is found in the cytoplasm whereas eukaryotic DNA is packed into the nucleus of the cell.
Prokaryotic and eukaryotic DNA carry genetic information for the development, functioning and reproduction of prokaryotes and eukaryotes respectively. Eukaryotes consist of membranebound nucleus whereas prokaryotes lack a membrane­bound nucleus. Prokaryotic DNA is double­stranded and circular. But, eukaryotic DNA is double­strand and linear. The amount of DNA in prokaryotic cells is much less than the amount of DNA in eukaryotic cells. Both prokaryotic and eukaryotic DNA undergo replication by the enzyme DNA polymerase. The main difference between prokaryotic and eukaryotic DNA is that prokaryotic DNA is found in the cytoplasm whereas eukaryotic DNA is packed into the nucleus of the cell.