Answer:
A Photoheterotroph
Feedback:
*Energy source:
-Phototroph: uses light
-Chemotroph: uses redox reactions from an organic or inorganic compound
*Carbon source:
-Autotroph: uses CO2
-Heterotroph: uses an organic source of carbon
Photoherterotroph
Alcohols and carbon dioxide.
The hydroxyl group (-OH) is the functional group that defines alcohols.
alcohols are more volatile than organic carboxylic acids (each with same number of carbon atoms).
Hydrocarbons are the organic compounds containing molecules with carbon and hydrogen.
Naphthalene is soluble in alcohols, benzene, ammonia, carbon disulfide.
Answer: A Photoheterotroph Feedback: *Energy source: -Phototroph: uses light -Chemotroph: uses redox reactions from an organic or inorganic compound *Carbon source: -Autotroph: uses CO2 -Heterotroph: uses an organic source of carbon
molecule
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.
Carbon, hydrogen, and oxygen.
alcohols carbohydrates sugars
Tertiary alcohols are also bonded to three other carbon atoms (whereas secondary alcohols are bonded to two, primary alcohols to one). These other carbon atoms share their electronegative charges with the middle carbon.
Alcohols and carbon dioxide.
The hydroxyl group (-OH) is the functional group that defines alcohols.
alcohols are more volatile than organic carboxylic acids (each with same number of carbon atoms).
carbon, hydrogen, and oxygen
Hydrocarbons are the organic compounds containing molecules with carbon and hydrogen.
Through fermentation Carbohydrates are converted into Alcohols and Carbon Dioxide