answersLogoWhite

0

Yes, both cell division and cell enlargement result in growth.

User Avatar

Wiki User

16y ago

What else can I help you with?

Related Questions

What is cell enlargement and division?

yes..growth accomplishes both cell division and cell enlargement.


Do organic or inorganic hormones help plants grow faster?

Organic hormones can help plants grow faster by promoting root growth, flowering, and fruit development. Inorganic hormones, such as synthetic plant growth regulators, can also accelerate plant growth by influencing specific physiological processes like cell enlargement and division. Both types of hormones can be effective, but the choice depends on the plant species and growth stage.


Is Simple cell division of both plants and animals is an identical process?

No, simple cell division in plants and animals is not identical. Plants rely on cell division in meristematic tissues for growth, while animals use cell division in tissues for growth and repair. Additionally, plants typically have a rigid cell wall that must be divided during cell division, unlike animal cells.


The main purpose of cell division is?

Cell division has three purposes for the organism. The are responsible for the reproduction, growth and maintenance of both single celled and multicellular organisms.


What is the difference between cell division cell differentiation and cell enlargement?

Cell division leads to formation of new cells, cell differentiation results into formation of tissue system to perform specific work and cell elongation increases the length and width of an organ.


What are the two ways on how living things grow?

Living things can grow through cell division, where cells multiply and increase in number, and through cell enlargement, where individual cells increase in size. Both processes contribute to the overall growth and development of organisms.


Does cell division only happen in women?

No. You need cell division to grow, and since men and women both grow from infancy until death, (eg. gaining muscle, reforming broken bones, etc.) we both need cell division.


Both cytokinins and gibberellins promote plant growth. Compare the ways in which these hormones stimulate growth.?

Cytokinins promote cell division and growth mainly in lateral buds and roots, leading to bushier plants. Gibberellins, on the other hand, primarily promote stem elongation and leaf expansion by stimulating cell elongation. Both hormones work together to regulate various aspects of plant growth and development.


What is thidiazuron?

It is plant growth regulator. it is a cytokinin. Cytokinin is involved in both local and long distance signalling; as a long distance signal CK shares the same transport systems used by the plant for moving purines and nucleosides. Cytokinins are involved in many plant processes, including cell division, shoot and root morphogenesis, chloroplast maturation, cell enlargement, auxiliary bud release and senescence. The ratio of auxin to cytokinin is crucial during cell division and the differentiation of plant tissues and auxin is known to regulate the biosynthesis of cytokinin


Both growth hormone and growth hormone releasing hormone have been successfully used to promote growth in children with short statures?

Growth hormone promotes growth by stimulating cell growth and division, while growth hormone releasing hormone triggers the release of growth hormone from the pituitary gland. By using both hormones together, a synergistic effect can be achieved to maximize growth-promoting benefits in children with short statures.


What do cells form from?

Cells form from the division of pre-existing cells through the process of cell division, which includes both mitosis for somatic cells and meiosis for reproductive cells. This allows for growth, development, and repair in multicellular organisms.


What is the difference between hyperplasia and hypertrophy?

Hyperplasia is an increase in the number of cells in an organ or tissue, leading to its enlargement, whereas hypertrophy is an increase in the size of existing cells in an organ or tissue. Both processes contribute to the growth of tissues, but through different mechanisms.