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Sentence B Honors 10 Biology 2015-16.

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Presentation on theme: "Sentence B Honors 10 Biology 2015-16."— Presentation transcript:

1 Sentence B Honors 10 Biology

2 Some cells are encased in a rigid wall, which constrains their shape, while others have a flexible cell membrane and no rigid cell wall. Student: Some cells are closed in by a wall, that constrains their shape, while other cells have a Bendable cell membrane

3 Some cells are encased in a rigid wall, which constrains their shape, while others have a flexible cell membrane and no rigid cell wall. Student: Some cells have a weak cell wall, that holds the shape, Other cells have a flimsy cell membrane and no weak cell wall.

4 Some cells are encased in a rigid wall, which constrains their shape, while others have a flexible cell membrane and no rigid cell wall. Student: Some cells is shut in a bumpy Constraint, that holds their shape :including the limber brain. That has no bumpy Container.

5 Some cells are encased in a rigid wall, which constrains their shape, while others have a flexible cell membrane and no rigid cell wall. Student: Cells can be morphed due to being stuck in a rough and solid wall, not all cells have solid walls some have bend-able.

6 Some cells are encased in a rigid wall, which constrains their shape, while others have a flexible cell membrane and no rigid cell wall. Student: While some cells are concealed in a sturdy casing molding their form, others have a loose, gel-like substance without the sturdy shell.

7 Some cells are encased in a rigid wall, which constrains their shape, while others have a flexible cell membrane and no rigid cell wall. Student: All cells have some kind of seal around them, but they’re not the same type, Some cells have a rough textured outside that helps to keep the form of the cell, and Some have a smoother, texture, that can bend and move more.

8 Some cells are encased in a rigid wall, which constrains their shape, while others have a flexible cell membrane and no rigid cell wall. Student: Plant cells are inside borders which keeps them from expanding out, unlike animal cells that can stretch out.

9 Some cells are encased in a rigid wall, which constrains their shape, while others have a flexible cell membrane and no rigid cell wall. Student: Cells can be encaged in a rough “room” that forms their shape, but other cells have a cell membrane that is not stiff, therefore the cells make their own shape to “fall” into.

10 Student: END SENTENCE B: Pass out sentenced C
Some cells are encased in a rigid wall, which constrains their shape, while others have a flexible cell membrane and no rigid cell wall. Student: END SENTENCE B: Pass out sentenced C

11 The larger size of many cells is related to the process of development that occurs after the egg is fertilized, when the contents of the egg (now termed a zygote) are used in a rapid series of cellular divisions, each requiring tremendous amounts of energy that is available in the zygote cells. Student: The grand size of multiple eggs correlates to the procedure of evolution that happens after the egg is germinated. The fillings of the egg (now designated a zygote) are applied in a brisk progression of embryonic partitions, each warranting colossal quantity of energy that is attainable in the zygote cells.

12 The larger size of many cells is related to the process of development that occurs after the egg is fertilized, when the contents of the egg (now termed a zygote) are used in a rapid series of cellular divisions, each requiring tremendous amounts of energy that is available in the zygote cells. Student: The great size of numerous eggs is associated to the treatment of growth that happens after the egg is pollinated, when the elements of the egg (at that moment cycled a zygote) are applied in an accelerated chain of cell contained departments, each needing large quantities of energy that is accessible in the zygote cells.

13 The larger size of many cells is related to the process of development that occurs after the egg is fertilized, when the contents of the egg (now termed a zygote) are used in a rapid series of cellular divisions, each requiring tremendous amounts of energy that is available in the zygote cells. Student: The large size of many eggs is connected to the system of progression that occurs after the egg is enriched when the contents of the egg (now called a zygote) are utilized in a speedy series of cellular divisions, each demanding enormous amounts of energy that is accessible in the zygote cells.

14 The larger size of many cells is related to the process of development that occurs after the egg is fertilized, when the contents of the egg (now termed a zygote) are used in a rapid series of cellular divisions, each requiring tremendous amounts of energy that is available in the zygote cells. Student: A vast amount of eggs corresponds with the affects of modification that comes when the egg is inseminated when the substance of an egg, which is defined as a zygote, is chronologically arranged up of cellular compartments, everyone relying on a wonderous outcome of power that’s legible in zygote cells.

15 The larger size of many cells is related to the process of development that occurs after the egg is fertilized, when the contents of the egg (now termed a zygote) are used in a rapid series of cellular divisions, each requiring tremendous amounts of energy that is available in the zygote cells. Student: After the egg is grown tis size is determined by the order in which it happened, and when the, innards called a zygote are constantly utilized they need a large quantity of power that can be used in a zygote.

16 The larger size of many cells is related to the process of development that occurs after the egg is fertilized, when the contents of the egg (now termed a zygote) are used in a rapid series of cellular divisions, each requiring tremendous amounts of energy that is available in the zygote cells. Student: When enriched, an egg becomes bigger. This happens because the substances in the egg, or zygote, are put through a large cellular splitting process which needs power from the zygote cell.


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