Probably, but it depends on what you are trying to do. If you want to copy a single cell that contains a single character, it probably would be faster to retype. However, if you want to copy 50 cells containing formulas, then it would be much faster (and more accurate) to use the copy function instead of retyping.
Chemical reactions in cells are faster than the same reactions outside cells.
Yes, cancer cells typically divide at a faster rate than normal cells.
Because the materials can go through the small cell faster
Not necessarily. Cells in different parts of plants and animals reproduce (divide) at different rates. It would depend on what parts of the organisms you are comparing. For example: the ends of plant roots grow a lot faster than the other parts, and hair cells in animals grow faster than cells in other parts of the body.
No, cancer cells are more active than normal cells. Cancer cells are always dividing at a faster rate than normal cells.
Yes, chemical reactions in cells are generally faster than the same reactions outside of cells. This is due to the presence of enzymes in cells that catalyze and speed up reactions by lowering the activation energy required for the reaction to occur. Additionally, cells are able to control and optimize the conditions for these reactions to take place efficiently.
Skin cells are damaged faster than your liver cells so the divide more often
because my dick is very big
Stem cells do not necessarily grow faster than cancer cells. Cancer cells can divide more rapidly and uncontrollably than stem cells, which can contribute to the aggressive nature of cancer growth. However, stem cells have the ability to divide and differentiate into various cell types, while cancer cells typically lose this ability.
Typing is generally faster than writing in cursive because of the speed and accuracy of keyboard input compared to handwriting. Additionally, typing allows for easier editing and copying text compared to cursive writing.
Simple columnar epithelium cells will heal faster than stratified squamous cells. The stratified squamous cells rarely have contact with blood.
In hemolytic anemia, the red blood cells are destroyed faster than the bone marrow replaces them.