so it can suck on a bannana
Alcohol
Because they need to know where pollution their fumes that their factories might head in the future, as to not place a factory near the city
The short answer is "yes." However, in chemistry, "aromatic" has a specific meaning that might be different from what a non-chemist would probably guess, and many scents are not aromatic in the chemical sense. Incidentally, many natural scents contain the exact same aromatic hydrocarbons used in some artificial scents.
I think it because there is more energy needed in order to break down the bonds in the hydrocarbon. Making it less efficient for fuels
medicines, electronic components, composite materials in aircraft and polymers
so it can suck on a bannana
Alcohol
If this is a homework question, your teacher should be ashamed. The answer is probably supposed to be "analytical chemistry." However, organic chemists, inorganic chemists, physical chemists and biochemists all might do this to some extent, so really a better answer would just be "chemistry" and even that might be too narrow.
You might be thinking of one of the hydrocarbons, of which there are thousands.
halogen compound
yes it can be substituted, you might want to use a little LESS of the olive oil, as it is heavier and has a stronger taste.
How might the people of your research prepare to deal with future hurricanes?
beacause hydrocarbons cracked are expensive
cheryl coles hair colour is Casting Crème Gloss 550 Mahogany by L'Oréal Paris :) cost £6 from most stores such as superdrug , asda , chemists , might be cheaper in chemists about £5.50
There are many ways one might prepare to take a CFA level 1 examination. The best way one might prepare is by studying the official CFA study aids provided by educational programs.
There are two elements which are liquid at room temperature and they are Mercury (Hg) and Bromine (Br). Copernicium (Cn) might be liquid at room temperature but chemists are not sure about it.
The best electron microscopes now can show us surfaces with individual atoms. This sort of technology will be invaluable when chemists start developing nano-scale engineering, allowing them to monitor the progress of the construction and visualise the function of these nano-machines.