muscle cells and nerve cells.
E.G. Nerve cells can never be created again after they die.
Nerve cells (neurons) and muscle cells (myocytes) are examples of cell types that are typically in a non-dividing stage and do not complete the mitosis process. These cells have exited the cell cycle and are in a state of permanent arrest, known as G0 phase.
muscle cells and nerve cells. E.G. Nerve cells can never be created again after they die.
There are 46 chromosomes after mitosis. It stays the same from the beginning.
The cell would remain in the G2 phase and would not enter into mitosis
Since internal energy is a state function and a cyclic process always returns to the same state (that's how you define a cyclic process), the value of the the internal energy will remain constant. That is not to say that it doesn't change along the cyclic path during the process - just that it always returns to the same value when the cycle is complete.
Mitosis is how non-sex cells divide - and is essential for the creation of new cells. All the somatic (non-sex) cells in the body divide by mitosis - including skin cells - we would not live long without mitosis.
Muscle cells and nerve cells
Muscle cells and nerve cells
They should be remain diploid.So they undergo mitosis.
muscle cells and nerve cells. E.G. Nerve cells can never be created again after they die.
muscle cells and nerve cells. E.G. Nerve cells can never be created again after they die.
muscle cells and nerve cells. E.G. Nerve cells can never be created again after they die.
dinoflagellets and diatoms only
52 chromosomes, beca.use the number of chromomes remain the same in mitosis
There are 46 chromosomes after mitosis. It stays the same from the beginning.
This question has not an answer because is not complete.
The cell would remain in the G2 phase and would not enter into mitosis
1.) The 2 copies of DNA produced by replication in each chromosome remain closely associated until the cell enters prophase of mitosis. 2.) At that point, the chromosomes condense, and the two chromatids in each chromosome become clearly visible. 3.) They separate from each other in anaphase os mitosis, producing 2 cells, each with a complete set of genes coded in DNA.