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Yes, incomplete combustion of natural gas can produce aldehyde. It is also stated that incomplete combustion of natural gas also produces carbon monoxide.
A common mechanism is the hydrogenation of a double bond, which would produce propane
cinnamaldehyde is a aldehyde hence cinnam(aldehyde)
a red precipitate is formed which indicates the presence of aldehyde.
Camphor is a ketone.It is the oxidation product of borneol, which is a secondary alcohol. Primary alcohols when they are oxidized can either produce carboxylic acids or aldehydes. However, since borneol is secondary, it cannot be oxidized to produce an aldehyde or carboxylic acid.Secondary alcohols, on the other hand, will produce ketones. Since borneol is a secondary alcohol, it cannot be oxidized to make an aldehyde which means that camphor must be a ketone.Here is a link to the reaction that I'm talking about:http://img41.imageshack.us/i/primaryohoxidat2.png/Hope that answers your question.
no
Yes, incomplete combustion of natural gas can produce aldehyde. It is also stated that incomplete combustion of natural gas also produces carbon monoxide.
A common mechanism is the hydrogenation of a double bond, which would produce propane
aldehyde
Minimal oxidation will produce an aldehyde, stronger oxidation will produce a carboxylic acid, and complete oxidation will produce carbon dioxide and water.
Ter. alcohols are those in which alpha carbon (carbon bearing halogen atom) is attached to three other carbon atoms, in aldehyde there is only one and in ketones there are two carbons attached to alpha carbon so by hydrogenation aldehydes may be converted into primary alcohols and ketones into secondary alcohols so preparation of ter. alcohols is not possible. however ketones with Grignard's reagents may produce tertiary alcohols.
cinnamaldehyde is a aldehyde hence cinnam(aldehyde)
a red precipitate is formed which indicates the presence of aldehyde.
An aldehyde oxidase is an enzyme which catalyzes the oxidation of an aldehyde to a carboxylic acid.
I aldehyde dangerous to inhale
Camphor is a ketone.It is the oxidation product of borneol, which is a secondary alcohol. Primary alcohols when they are oxidized can either produce carboxylic acids or aldehydes. However, since borneol is secondary, it cannot be oxidized to produce an aldehyde or carboxylic acid.Secondary alcohols, on the other hand, will produce ketones. Since borneol is a secondary alcohol, it cannot be oxidized to make an aldehyde which means that camphor must be a ketone.Here is a link to the reaction that I'm talking about:http://img41.imageshack.us/i/primaryohoxidat2.png/Hope that answers your question.
An aldehyde (as the name says)