0 moles
Ethylene glycol
Ethylene glycol is not of animal origin !
No. It is produced from either ethylene oxide (an epoxide) or ethylene glycol (an alchohol). Petroleum is composed of tens, often hundreds, of hydrocarbons and is not used to make polyethylene glycol.
no, but polyethylene glycol is.
NO! Ethylene glycol is deadly poisonous even in relatively small amounts. Ethylene glycol is not ethyl alcohol, which is the only alcohol humans (or animals) can safely drink.
You get a polymer! When you have ethylene glycol react with phtalic anhydride in a basic sollution such as NaOH(aq) you'll get a linear polymer. When you have glycerol react with phtalic anhydride in the same way you'll get a crosslinked polymer. The important difference between glycerol and ethylene glycol is the amount of OH groups, and as we all know, the OH groups usually the group that reacts - particularly in the creation of polymers. So in this case your crosslinked polymer will be the glycerol as it has 3 OH groups. One in each end, allowing the molycule to connect with other molecules and create polymers, and one in the middle (connected to the 2nd Carbon Atom) allowing it to react with other polymers. I hope that sort of answers your question
Ethylene glycol
Ethylene glycol is not of animal origin !
Polyethylene oxide and polyethylene glycol are both known polymers. Ethylene oxide and ethylene glycol are, therefore, monomeric.
No. It is produced from either ethylene oxide (an epoxide) or ethylene glycol (an alchohol). Petroleum is composed of tens, often hundreds, of hydrocarbons and is not used to make polyethylene glycol.
It is clear. If it is at room temperature, and 100% Ethylene glycol is clear.
The chemical formula for ethylene glycol is C2H6O2.
no, but polyethylene glycol is.
Ethylene glycol.Ethylene glycol.
Yes
NO! Ethylene glycol is deadly poisonous even in relatively small amounts. Ethylene glycol is not ethyl alcohol, which is the only alcohol humans (or animals) can safely drink.
Ethylene Glycol (antifreeze) is extremely fatal when consumed in large amounts. Ethylene Glycol (CH2OHCH2OH).