no methane is not as same as ethlene,but they belong the group of hydrocarbon no methane is not as same as ethlene,but they belong the group of hydrocarbon.................written by junaid from kolkata from saifee hall class9-10
No, it's not the same thing. Ethylene is a gas used to produce polyethylene (solid). "Polymer grade" is just a purity label for ethylene gas, means that this ethylene is pure enough to be used in polyethylene (or other polymer) production.
Methane, natural gas, liquefied petroleum gas (LPG), butane, propane, acetylene, ethylene are gases that can be used as fuels.
The gas that causes food to ripen is Methane - It's commonly used to ripen bananas on an industrial scale.
In fuels gasoline is a liquid petroleum fuel with a density of about 0.8g/cm3. Gas is generally natural gas, methane with some ethane.
Methane, carbon dioxide, nitrous oxide, same kind of gas any animal lets out if they got flatulence or have to burp.
British: Me-thane, beginning same as Me American: Meh-thane, beginning same as merry
No, methane gas (CH4) and ammonia (NH3) are not the same. Methane is a hydrocarbon gas composed of carbon and hydrogen atoms, while ammonia is a compound made of nitrogen and hydrogen atoms. They have different chemical compositions and properties.
The main greenhouse gas that comes from rotting garbage is methane (about 87% by volume). But, after time, methane gas is oxidized to form carbon dioxide and water. Methane gas is a major contributer to to global warming and the Kyoto protocol seeks to regulate its production. Check out this website for more information: http://en.wikipedia.org/wiki/Methane
Organic gases are gases that contain carbon atoms in their molecular structure. These gases can be produced through natural processes such as decomposition and combustion, or through human activities like burning fossil fuels. Examples of organic gases include methane, ethylene, and propane.
Ethylene gas causes produce to ripen. When ethylene gas is being produced you will notice the produce begin to ripen until it becomes overripe.
The monomer of polyethylene is ethylene - H2C=CH2. {eth=2 carbons, ene=a CC double bond} Two methane - H2CH2 or H3CH - molecules condense to form ethane: H3C-CH3 + 2 H+. Another 2 H+ removal, or condensation, gives the -ene H2C=CH2. Polymerization of the -enes is the next step. Via another condensation reaction, a poly-eth-ene appears thusly: H2C=CH|HC=CH|HC=CH|HC=CH|HC=CH|HC... & etcetera.
Formaldehyde Ethylene oxide Betapropiolactone