Quizzes & Puzzles0 min ago
Hydrogen
Water comprises of 2 parts hydrogen and 1 part oxygen.
Hydrogen is highly inflammable and and oxygen is needed to achieve combustion. So why is water not the most voliatile liquid on the plant ? and is used to put out fires
Hydrogen is highly inflammable and and oxygen is needed to achieve combustion. So why is water not the most voliatile liquid on the plant ? and is used to put out fires
Answers
Best Answer
No best answer has yet been selected by Peter 2. Once a best answer has been selected, it will be shown here.
For more on marking an answer as the "Best Answer", please visit our FAQ.Compare what you have asked with this analogy:
Paper is flammable, oxygegen is needed to achieve combustion. So why is ash not the most combustible material on the plant (sic)?
As Panic Button has said:
the ash (water) is the RESULT of that combustion.
Paper is flammable, oxygegen is needed to achieve combustion. So why is ash not the most combustible material on the plant (sic)?
As Panic Button has said:
the ash (water) is the RESULT of that combustion.
Liquid hydrogen is also used as a coolant in some electrical systems i believe, a power station i did work experience in used liquid hyrdrogen in its switches as an isolator too. I aksed about it and was told aslong as it is kept at a certain purity (60% pure i think) then it is perfectly safe. Dont know if it is true though.
This was bit of a sidetrack that i thought was interesting to i had to say it
Alec
This was bit of a sidetrack that i thought was interesting to i had to say it
Alec
When hydrogen and oxygen combine to form water, the arrangement of the electrons in their atoms is changed - they form covalent bonds - try this link: http://www.wpbschoolhouse.btinternet.co.uk/pag e04/4_72bond.htm#molecules
When their electrons are shared like this, each atom "thinks" it has an electron arrangement like that of a noble gas (helium, neon, argon etc). These elements are very unreactive. Hydrogen and oxygen do not any longer have their individual characteristics - they have formed a new entity - a compound - with a set of properties all its own. It's a bit like making a cake - the end result has quite different properties from the ingredients you started with. Hope this helps.
When their electrons are shared like this, each atom "thinks" it has an electron arrangement like that of a noble gas (helium, neon, argon etc). These elements are very unreactive. Hydrogen and oxygen do not any longer have their individual characteristics - they have formed a new entity - a compound - with a set of properties all its own. It's a bit like making a cake - the end result has quite different properties from the ingredients you started with. Hope this helps.