7 mitotic divisions required to produce 128 cells from a single cell.
How many mitotic divisions occur in a cell of root tip to form 256 cells?
Every mitotic division will lead to the formation of twice the number of mother cells, hence to form 256 cells from a root tip cell, 8 generations of mitotic divisions must occur (28=256 cells).
How many divisions are required to produce 128 gametes?
Gametes are produced by meiosis. In meiosis 4 cells are formed from one cell. Thus 32 divisions are formed are needed to produce 128 gametes that is 32×4=128.
How many mitotic divisions are needed for 100 cells?
Hence, the correct answer is 125 meiosis divisions will be done for the formation of 100 zygotes in humans.
How do you calculate cell division?
For example, one bacterial cell will divide about every 20 min under standard conditions. For example, after the 6th division there will be 64 cells. The formula to calculate the number in the nth generation is given by the formula N = N x 2n where n is the number of generations.
How many total mitotic divisions are required to produce 124 root cells?
In mitosis cell division, each cell produces two daughter cells. 8 generations of mitosis are required to produce 256 cells from one cell. In every generation each daughter cell also undergoes mitotic division. So total 255 mitotic divisions are required.
How many generations of mitosis are required for 64 cells?
1-2-4-8-16-32-64-128 so total 7 generation req. Since Mitosis is an equational division process and it produces two daughter cells from the single parent cells.
How do you get mitotic divisions?
In mitosis one cell divides in two and both daughter cells have identical sets of chromosomes to the parent cell. 8. Formula of mitosis: (2n × 2) / 2.
How many times mitotic divisions must occur in a cell of the root tip to form 512 cells?
So, the correct answer is ‘9‘
How many cells are found in mitotic division?
Mitosis is a process of nuclear division in eukaryotic cells that occurs when a parent cell divides to produce two identical daughter cells.