by Biology experts to help you in doubts & scoring excellent marks in Class 11 exams. Mitotic cells division is equational division where a mother cell divides to form 2 daughter cells. So to produce 256 cells from a single cell, 8 mitotic divisions will occur which can be represented as 1→2→4→8→16→64→128→256.
How many generations of mitosis are required to produce 256 cells from a single cell of root tip?
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 mitotic divisions does 256 cells have?
Thus, after 8 mitotic divisions, 256 cells are produced from a single parent cell.
How many cell divisions are required for formation of 256 Parenchymatous cells?
After first mitosis 2 daughter cell,after 2nd mitosis 4 cells,after 3rd mitosis 8 cells,after 4th mitosis 16 cells,after 5th mitosis 32 cells,after 6th mitosis 64 cells,after 7th mitosis 128 cells,and after 8th mitosis 256 cells are formed. Thus the answer is 8.
How many mitotic divisions and number of generations respectively are required to form 32 cells from a cell?
Five mitotic divisions are required to form 32 cells from a single cell.
How many mitotic generations are required to produce 128 cells from 2 cells?
A single mitotic division of one cell produces two cells. 2nd division produces 4 cells and so on. Therefore 7 generations are required to produce 128 cells.
How many mitotic divisions produce 128 cells?
Therefore, 7 mitotic divisions are required for a single cell to make 128 cells.
How many mitotic cell divisions are there?
Mitosis is conventionally divided into five stages known as prophase, prometaphase, metaphase, anaphase, and telophase.
How many mitotic generations are required to produce 64 cells?
Explanation: From 64 cells expecting the last formed cell , we can say that 63 mitotic division could take place.
How many mitotic divisions must occur in a cell to form 1024 cells?
“34 mitotic divisions are needed for a single cell to make 1024 cells.
How many mitotic divisions take place for complete development of embryo sac?
1 meiosis and 2 mitosis.
How many mitotic divisions are required to produce 512 cells?
9 mitotic division. since one mitotic division produce 2 cell.
How many mitotic divisions are required for the formation of mature male gametophyte in angiosperms?
Hence, one meiotic division and two mitotic division are required for the formation of fully mature male gametophyte from microspore mother cell in angiosperm.
How many number of generations are required to produce 32 cells from two cells by mitotic divisions?
5 successive generations of mitosis must occur to produce 32 cells.
How many mitotic divisions are required for the formation of female gametophyte?
Thus, one meiotic division produces one matured female gametophyte in an angiosperm. Hence, 101 meiotic divisions are required to produce 101 female gametophytes in an angiosperm.
How many mitotic divisions are required for the formation of 100 seeds?
So, for the development of 100 megaspores 100 meiotic division is required. – So, by the fusion of 100 microspores and 100 megaspores, 100 seeds are formed. – Hence for the 100 seed production 200 meiotic division takes place in the Cyperaceae family. Hence, the correct answer is option (D).