The key difference between stipule and axillary bud is that the stipule is one of the two leaf-like appendages present at the base of the leaf. Meanwhile, the axillary bud is the bud or the little protuberance present in between the angle formed by the stem and the leaf petiole. Roots, stems, and leaves are […]
Archives for February 2020
Difference Between Variegated Leaves and Simple Leaves
The key difference between variegated leaves and simple leaves is that variegated leaves have green and non-green parts while simple leaves have a single leaf blade directly attached to the petiole or leaf stalk. Leaves are the major photosynthetic parts of plants. They are rich in chloroplasts and appear in green. They carry out photosynthesis […]
Difference Between Gypsum and Phosphogypsum
The key difference between gypsum and phosphogypsum is that gypsum is a naturally occurring form of calcium sulfate, whereas phosphogypsum is a synthetic form of calcium sulfate. More specifically, gypsum is a rock-forming, soft crystal obtained by mining or quarrying, but phosphogypsum is a by-product during the production of superphosphate from phosphate rock. Therefore, both […]
Difference Between Calcium Sulfate and Plaster of Paris
The key difference between calcium sulfate and plaster of Paris is that calcium sulfate is an inorganic compound having a calcium cation and sulfate anion, whereas plaster of Paris is a material containing calcium sulfate hemihydrates. The term calcium sulfate is common in chemistry laboratories, while the term plaster of Paris is common in medical […]
Difference Between Transaldolase and Transketolase
The key difference between transaldolase and transketolase is their function. Transaldolase catalyzes the conversion of sedoheptulose 7-phosphate and glyceraldehydes 3-phosphate into erythrose 4-phosphate and fructose 6-phosphate, while transketolase catalyzes the conversion of xylulose 5-phosphate and ribose 5-phosphate into glyceraldehyde 3-phosphate and sedoheptulose 7-phosphate. The pentose-phosphate pathway is a metabolic pathway that takes place parallel to […]
Difference Between Single Double and Triple Superphosphate
The key difference between single double and triple superphosphate is their method of production and composition. Single superphosphate is produced from phosphate rock and sulfuric acid while double superphosphate is produced via the reaction between phosphate rock and low concentration phosphoric acid. Triple superphosphate, on the other hand, is produced from phosphate rock and phosphoric […]
Difference Between Agglomeration and Deglomeration
The key difference between agglomeration and deglomeration is that agglomeration is the process of aggregation, whereas deglomeration is the process of breakdown of aggregates. Agglomeration and deglomeration are two chemical processes that are opposite to each other. Agglomeration refers to the formation of large masses via the combination of small masses. Deglomeration is the opposite […]
Difference Between Single Superphosphate and Triple Superphosphate
The key difference between single superphosphate and triple superphosphate is that single superphosphate is produced from phosphate rock and sulfuric acid, whereas triple superphosphate is produced from phosphate rock and phosphoric acid. Superphosphate is a group of fertilizers which provides the crops with phosphate mineral element. There are three major types of superphosphates as single […]
Difference Between Glandular and Non-glandular Trichomes
The key difference between glandular and non-glandular trichomes is that glandular trichomes possess a glandular head and secrete secondary metabolites. In contrast, non-glandular trichomes do not process a glandular head and protect plants against UV light. Trichome is an epidermal outgrowth seen as a tiny hair-like structure on the plant stem and branches. They primarily […]
Difference Between Anionic Cationic and Nonionic Surfactants
The key difference between anionic cationic and nonionic surfactants is that anionic surfactants contain negatively charged functional groups, and cationic surfactants contain positively charged functional groups, whereas nonionic surfactants have no net electrical charge. The term surfactant refers to surface-active agents. That means, the surfactants can reduce the surface tension between two substances. For example, two substances […]
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