Question

In which condition the turgor pressure of the cell becomes equal to the osmotic pressure?
A) In flaccid cell
B) In plasmolysed cell
C) In fully turgid cell
D) In never happens

Answer 1

Generally, turgor pressure is caused by the osmotic flow of water and occurs in plants, fungi, and bacteria. The marvel is likewise seen in protests that have cell dividers. This framework isn't found in creature cells, as the nonattendance of a cell divider would make the cell lyse when under an excessive amount of tension.

Complete answer:

Turgor pressure: is commonly steady inside the root tip. In any case, the solutes that create this weight can fluctuate both longitudinally and radially. The fundamental solutes aggregated in osmotically critical sums along the root tip are potassium salts, hexoses (glucose and fructose), and amino acids. As opposed to the high focuses found in the sifter component, sucrose aggregation is low along the root zenith, albeit a marginally higher fixation can happen in the apical, meristematic district.
Osmotic pressure: weight is firmly identified with some different properties of arrangements, the colligative properties. These incorporate the point of solidification wretchedness, the breaking point height, and the fume pressure gloom, all brought about by dissolving solutes in an answer. The osmolality is frequently decided from fume pressure misery or the point of solidification wretchedness, as opposed to from direct osmotic weight estimations. The osmolality is the fixation important to watch these wonders.

Thus, the option (C) is correct.

Note: Diffusion pressure deficit (DPD) is the same as suction pressure. DPD is calculated as the difference between osmotic pressure (OP) and turgor pressure (TP). The OP is the pressure responsible for the gain of water and turgor pressure is the opposing pressure.