Phloroglucinol is an organic compound that is used in pharmaceuticals and explosives. Its is a white, slightly sweet, crystalline compound.
Phloroglucinol is not so suluble in water (1o g/L); dissolve 10 g phloroglucinol in 100 mL demineralized water.
The IUPAC name of Phloroglucinol is benzene-1,3,5-triol.
Acidified phloroglucinol is used as a stain for the detection of lignin. If lignin is present, it will turn a bright red colour.
No, epidermal cells from petunia do not stain with phloroglucinol. Phloroglucinol is typically used to stain lignin in plant tissues, not epidermal cells. The stain mainly reacts with lignin, which is absent in the epidermal cells.
Yes, tracheids from oak wood are stained red with phloroglucinol due to their lignin content. Lignin is a key structural component of cell walls in woody plants and is specifically detected by phloroglucinol, resulting in a characteristic red coloration.
The absorption spectra of phloroglucinol show peaks around 220-230 nm due to its aromatic structure containing benzene rings and hydroxyl groups. This compound absorbs light in the UV region and is commonly used in chemical analysis and spectrophotometry.
its an anti-spasmodic used in bilary colic, GI spasms, dysmenorea, uterine spasm etc
The compound name for C6H7O2(OH)3 is 1,3,5-trihydroxybenzene, which is also known as phloroglucinol.
Acidified phloroglucinol is commonly used as a reagent to detect the presence of lignin in plant tissues. It forms a red-violet color when it reacts with lignin, making it useful for staining lignified cell walls in microscopy. Additionally, it can be used to estimate the degree of lignification in plant materials.
The Moors' test is a chemical test used to detect the presence of carbohydrates, specifically pentoses like ribose and deoxyribose. The test involves heating the sample with concentrated hydrochloric acid and phloroglucinol, which forms a pink to red color in the presence of pentoses.
Benzene-1,3,5-triol or cyclohexane-1,3,5-trione.(If you don't get the joke, these are the same compound, or at least tautomers of it.)It would help if we knew what you were using it for. My research indicates it's used in the manufacture of pharmaceuticals and explosives, neither of which you really have any business doing if you need to ask the question.
The koala lives almost entirely on eucalypt leaves. This is likely to be an evolutionary adaptation that takes advantage of an otherwise unfilled ecological niche, since eucalypt leaves are low in protein, high in indigestible substances, and contain phenolic and terpene compounds that are toxic to most species.The koala will eat the leaves of a wide range of eucalypts, and occasionally even some non-eucalypt species such as Acacia, Leptospermum, and Melaleuca. It has firm preferences for particular varieties of eucalypt and these preferences vary from one region to another: in the south Manna Gum, Blue Gum, and Swamp Gum are favoured; Grey Gum and Tallowwood are important in the north, and the ubiquitous River Red Gum of the isolated seasonal swamps and watercourses that meander across the dry inland plains allows the koala to live in surprisingly arid areas. Many factors determine which of the 680 species of eucalypt trees the koala eats. Among trees of their favourite species, however, the major factor that determines which individual trees the koala chooses is the concentration of a group of phenolic toxins called formylated phloroglucinol compounds.[citation needed] Researches on koalas by keepers at 13 wildlife parks and zoos in New South Wales show that the most preferred group of Eucalyptus foliage had the lowest content of condensed tannins.