Ethyl (C2H5-) is a group in organic chemistry.
yes it would, 120 g of ethyl alcohol would be 96 ml.
A sugar, carbohydrate, or organic compound
organic compounds can be classified easily as open chain and closed chain to the core. BUT ORGANIC CHEMISTRY, it is very vast and there are separate branches like medicinal chemistry, drug chemistry, warfare chemistry, food chemistry, biochemistry and tons etc.
I am thinking that the study of the mechanism that drives the rate of energy transfer in chemical reactions, would most likely me studied in most detail in Biochemistry. This would also be covered on a smaller scale in your basic chemistry classes.
Formation of CO2 and ethyl alcohol indicate anaerobic reactions.Formation of CO2 and ethyl alcohol indicate anaerobic reactions.
science can be BROADLY classified into chemistry physics n Biology.
because of the physical and family relationship which is also classified as chemistry
yes it would, 120 g of ethyl alcohol would be 96 ml.
NH3 is classified as a base in chemistry because it can accept a proton (H) from an acid to form the ammonium ion (NH4), making it capable of neutralizing acids.
92
The mass would be approximately 92 grams.
The rate of disappearance of ethyl bromide would decrease if the solution were diluted by adding an equal volume of pure ethyl alcohol. This is because the concentration of ethyl bromide would decrease, resulting in fewer ethyl bromide molecules available for the reaction. The rate of reaction is directly proportional to the concentration of reactants, so decreasing the concentration would slow down the rate of disappearance.
A sugar, carbohydrate, or organic compound
organic compounds can be classified easily as open chain and closed chain to the core. BUT ORGANIC CHEMISTRY, it is very vast and there are separate branches like medicinal chemistry, drug chemistry, warfare chemistry, food chemistry, biochemistry and tons etc.
The mass of 2 moles of ethyl alcohol would be 92,14 grams.
If you switch from a hexane-ethyl acetate solvent system to ethyl acetate only, you would expect the Rf values to decrease. Ethyl acetate is a more polar solvent than hexane, so compounds will interact more with the solvent and have shorter distances of travel on the TLC plate, resulting in lower Rf values.
I am thinking that the study of the mechanism that drives the rate of energy transfer in chemical reactions, would most likely me studied in most detail in Biochemistry. This would also be covered on a smaller scale in your basic chemistry classes.