Because it can't be. Larger alcohols can be formed because of the presence of alkene or alkyne bonds; these can be oxidised in a controlled fashion to form the alcohol. Methane, with only one carbon, cannot have such bonds. Any other method of production is inefficient and has such a low yield and purity that it is not worth the time and expense.
Methanol and higher hydrocarbons have higher energy densities compared to methane, meaning they can carry more energy per unit volume or weight. This makes them more efficient to transport as they require less volume or weight for the same amount of energy. Additionally, methanol and higher hydrocarbons can be transported at ambient temperature and pressure, while methane requires expensive compression and cooling for transportation, making it more costly.
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Yes, methanol miscible.
Methanol has the highest boiling point among methane, chloromethane, and methanol. This is because methanol has stronger intermolecular forces (hydrogen bonding) compared to methane (only dispersion forces) and chloromethane (dipole-dipole forces).
No, because hydrocarbons consist of only hydrogens and carbons. The suffix "-amine" means that there is a nitrogen somewhere in the formula.
fuel and to obtain other organic compounds such as methanol, ethanol, carbon black, chloroform, formaldehyde.
Methanol and higher hydrocarbons have higher energy densities compared to methane, meaning they can carry more energy per unit volume or weight. This makes them more efficient to transport as they require less volume or weight for the same amount of energy. Additionally, methanol and higher hydrocarbons can be transported at ambient temperature and pressure, while methane requires expensive compression and cooling for transportation, making it more costly.
Methanol is not a hydrocarbon because it does not consist solely of carbon and hydrogen atoms. Methanol is a simple alcohol composed of one carbon atom, three hydrogen atoms, and one hydroxyl group (-OH). Hydrocarbons consist only of carbon and hydrogen atoms.
pH is defined as the negative log of the hydrogen ion concentration; concentration is usually expressed in moles per liter. The liter component is nearly always the universal solvent, water. When you add most hydrocarbons to water, it does not mix; it's immiscible. No hydrogen ions are formed, and the pH of the original water remains unchanged. However, some types of hydrocarbons DO have a hydrogen ion component when mixed with water. For example, consider methanol - CH3OH. The hydorogen attached to the oxygen in the -OH portion of that molecule will occasionally become unattached when methanol is mixed with water, giving methanol a SLIGHTLY more acidic characteristic than pure water. Thus, the more available one or more hydrogen ions are in the hydrocarbon you are considering, the lower the pH. Note, though, that the number of hydrogens in a molecule does not mean that they are all available. Hexane, C6H6, is less acidic than our methanol example, because the hydrogens are less available.
yes
New glucose, liver glycogen, cholesterol, lipoprotein, lipid, bile salts, and ketone bodies are synthesised in the liver.
Yes, methanol is a weak acid.
Mineral spirits typically consist of a mixture of aliphatic, alicyclic, and aromatic hydrocarbons, such as petroleum distillates. These hydrocarbons are derived from crude oil and are used as a solvent in various applications, such as paint thinning and cleaning. The specific composition may vary based on the manufacturer and intended use.
The solubility of hexane in methanol is low because hexane is a nonpolar molecule and methanol is a polar solvent. This means that hexane does not mix well with methanol.
Methanol is miscible with water, which means it can mix in any proportion. When methanol is added to water, it forms a homogenous solution due to hydrogen bonding interactions between the methanol and water molecules. This allows methanol to dissolve easily in water.
The raw material needed to make ethene is crude oil or natural gas, which are sources of hydrocarbons. Ethene is primarily produced through the process of steam cracking, where hydrocarbons are heated at high temperatures to break them down into smaller molecules, including ethene.