An alcohol, but it has cyclic rings and double bond.
1)Bromine solution in carbontetrachloride is used to identify alkanes, alkenes and alkynes. alkanes don't react therefore the color remains as it is ie, brown while alkenes and alkynes react and therfore brown color disappears. 2)Ammoniacal cuprous chloride when reacted with alkanes alkenes give no precipitate while with alkynes give red precipitate. Thus, alkanes with no reaction and unsaturation can be identified from the first test while alkynes from second test. combustion test solubility test kmno4 test sulfuric acid test
Cholesterol is the precursor of bile acid, steroid hormones and vitamin D.
An alcohol and a carboxylic acid salt (carboxylic acid if protonated at end of reaction).
It is a lipid.A steroid.The most common steroid in the world.
Hydrocarbons are organic compounds that only contain carbon and hydrogen.Alcohols are not hydrocarbons, as they also contain oxygen atoms.To convert a long-chain hydrocarbon into an alcohol, 1st cracking must be carried out, breaking the long-chain into smaller molecules and alkenes (hydrocarbons with carbon-carbon double bonds) and 2ndly the alkenes must be hydrated (at high temperature and pressure in presence of a catalyst).Example:1. Cracking (540°C, catalyst)decane (a hydrocarbon) C10H22 → pentane C5H12 + propene CH2=CH-CH3 + ethene CH2=CH22. Hydration (570°C, 60-70 atm, a catalyst such as phosphoric acid)ethene CH2=CH2 + H2O → ethanol (an alcohol) CH3CH2OH
1)Bromine solution in carbontetrachloride is used to identify alkanes, alkenes and alkynes. alkanes don't react therefore the color remains as it is ie, brown while alkenes and alkynes react and therfore brown color disappears. 2)Ammoniacal cuprous chloride when reacted with alkanes alkenes give no precipitate while with alkynes give red precipitate. Thus, alkanes with no reaction and unsaturation can be identified from the first test while alkynes from second test. combustion test solubility test kmno4 test sulfuric acid test
There are far more than four classes of organic molecules; there are easily hundreds, possibly a thousand. Some of them include alkanes, alkenes, alkynes, alcohols, aldehydes, ketones, carboxylic acids, benzenes, phenols, amines, amides, acid/acyl chlorides, amino acids, sugars, proteins, mustards, haloalkanes, haloalkenes, opiates, opioids and more.
As you can see here this is the equation of acetic and stearic acid.it shows how they are different from each other. This is because acetic acid reacts much more exp[losively with water.
If a hydrocarbon burns in a plentiful suppply of oxygen it will produce carbon dioxide and water, which is fine. However, if it does not burn in a plentiful supply of oxygen, it will produce carbon monoxide, which is poisonous to humans. In addition, the lower hydrocarbons are very highly flammable and can be explosive, and many are toxic and can be absorbed through the skin or lungs.
Cholesterol
no, it is not even a fatty acid.
Amino acid compounds and lipids can be formed by modifying cholesterol.
Cholesterol is the precursor of bile acid, steroid hormones and vitamin D.
An alcohol and a carboxylic acid salt (carboxylic acid if protonated at end of reaction).
cholesterol
Alkenes are defined as any of the series of unsaturated hydrocarbons containing a double bond, including ethylene and propylene. Disadvantages include that many alkenes are insoluble in aqueous acid and side reactions are possible.
It is a lipid.A steroid.The most common steroid in the world.