Clear-cutting is the most common method of timber removal. Clear-cutting removes all the trees in a given area, often by using large machinery. From an economic standpoint, the benefit of this approach is that humans can harvest maximum timber with minimal energy and cost.
Non living, it’s part of a body but alone it wouldn’t be alive
Answer:
Equatorial plate/ metaphase plate
Explanation:
The cell cycle consists of 4 phases:
- G1 phase
- S phase
- G2 phase
- M phase
M phase is further divided into mitosis and cytokineses.
In <u>mitosis</u>, the <u>cell divides its chromosomes</u> whereas in<u> cytokinesis the division of cell contents takes place resulting in two daughter cells</u>.
Mitosis is further composed of:
- <u>Prophase</u> (chromosomes condense and mitotic spindles are formed)
- <u>Metaphase</u> (<u>chromosomes align along the equatorial plate or metahase plate</u>)
- <u>Anaphase</u> (chromosomes are separated and move towards their respective poles)
- <u>Telophase</u> (chromosomes have reached their respective poles and nuclear membranes starts forming around the newly separated chromosomes)
<u>QUESTION:</u>
<u>During metaphase the chromosomes line up along the middle of the cell called the metaphase plate or equatorial plate.</u>
Answer:
The rate of dialysis will be higher than the normal.
Explanation:
As the kidney dialysis relies on diffusion of various dissolved waste molecules across a non-living semipermeable membrane, the rate of dialysis will be affected by the concentration gradient of the solute molecules. If the amount of solute in the blood is increasing that means the concentration of the solute is increasing in the blood. Now, as dialysis will be performed, there will be a high concentration gradient between the blood and the dialysis fluid and thus under the influence of concentration gradient the molecules in blood will diffuse faster towards the dialysis fluid across the semipermeable membrane.