provides a large surface area for transportation
19.3
Well there is many ways to write this in a sentence but I usually write " A Convection Cell is a self-contained convection zone.
.2-5.4%, higher values in this range are obtained as a result of ferritizing
When a pendulum reaches its maximum elongation the velocity is zero and the acceleration is maximum
electronic zone dampers located in the duct work...controlled by a main panel (2 zone panel..3 zone panel etc..) each zone would require its own dedicated duct work on the supply
zone of cell division-zone of elongation-zone of maturation
This is the organization of roots from the base closest to the plant itself to the tip of the root: zone of maturation - cells specialize to carry particular functions (root hairs present) zone of elongation - rows of newly produced cells elongate zone of cell division - new cells being produced root cap - covers the growing tip
Elongation
Cells in the zone of elongation are actively elongating and increasing in length, while those in the zone of maturation have stopped elongating and are primarily focusing on their final differentiation and specialized functions. In the zone of elongation, cells are still undergoing cell division and stretching, whereas in the zone of maturation, cells are specialized and matured for their specific roles in the organism.
yaaaaa.... I HAVE NO IDEA AASK SOMEONE ELSE!!!^ dumb answer.anyways, there are only three zones of a root in the longitudinal section.They are as follows:The Zone of Cell Division/MitosisThe Zone of ElongationThe Zone of MaturationThe Zone of Mitosis: Immediately proximal to the root cap is a cluster of cells that do not actively divide. This pad of cells is often called the quiescent center. These cells probably represent a reserve of cells to be recruited later in time for the meristem. As such they serve as corrections for proliferating somatic mutations. Just proximal to the quiescent center are cells that divide rapidly by mitosis, adding new cells to the length of the root. This is of course just one contribution to elongation of the root.The Zone of Elongation: Just proximal to the zone of mitosis is a zone of cell elongation. In this part of the root the newly created cells expand in their long dimension to push the meristem and root cap through the soil. The addition of the cells and their elongation are the tandem contributors to root elongation. This elongation involves resculpting the wall, growth of the cell within, a coalescence of the vacuoles to form a single large vacuole, and maturation of the organelles in these cells.The Zone of Maturation: As we keep moving proximally (away from the root apex), we find that the cells that are elongating are also differentiating. They are becoming distinguishable from each other. Some are destined to be typical parenchyma cells, while others will mature to be sclerenchyma cells.Hope this helped! :)
The zone of cell division is a region in plant roots where cells actively divide to allow for growth and root elongation. This region contains meristematic cells that continuously divide and give rise to new cells for growth and development.
Shoot elongation in a growing bud is primarily due to cell division and cell expansion processes occurring in the meristematic tissue of the bud. The hormone auxin plays a crucial role in promoting cell elongation by stimulating cell expansion and increasing water uptake in the cells. Additionally, environmental factors such as light and temperature can also influence shoot elongation.
New root cells become longer mainly by cell elongation, which is driven by the uptake of water and expansion of the cell walls. This process is regulated by hormones such as auxin and gibberellins, which promote cell elongation in roots. Additionally, the orientation of cell division also plays a role in root elongation.
The zone of elongation occurs when the cells in this zone stretch and lengthen as small vacuoles within the cytoplasm coalesce and fill with water. One or two large vacuoles occupy almost all of the cell volume in fully elongated cells. Cellular expansion in this zone is responsible for pushing the root cap and apical tip forward through the soil.
This is because the root's primary function is to absorb water and nutrients, which can be achieved more efficiently with a shorter elongation zone. In contrast, the stem requires a longer elongation zone to support the plant's growth and facilitate its ability to reach sunlight for photosynthesis.
Promots growth by cell division and cell elongation
This is the organization of roots from the base closest to the plant itself to the tip of the root: zone of maturation - cells specialize to carry particular functions (root hairs present) zone of elongation - rows of newly produced cells elongate zone of cell division - new cells being produced root cap - covers the growing tip