Yes, because it's a gas at room temperature
Yes, molecular compounds are formed through covalent bonding where atoms share electrons to form molecules. These molecules can exist as separate entities due to the strong bonds between the atoms.
There are approximately 4.68 x 10^22 molecules of methane in 0.123 moles of methane. This is calculated using Avogadro's number, which is 6.022 x 10^23 molecules per mole.
methane + oxygen -> carbon dioxide + water 2 Methane molecules plus 4 Oxygen molecules gives 2 molecules of Carbon dioxide plus 4 Water molecules.
Molecules containing carbon are known as organic molecules. These can include simple compounds like methane and ethanol, as well as complex structures like proteins and DNA. The versatility of carbon allows for a wide variety of organic molecules to exist.
It represent a one molecule.CH4 stands for Methane
Any link exist between methane and subatomic particles.
Methane is soluble in oil because both substances are non-polar, meaning they have similar intermolecular forces. This allows methane molecules to mix well with oil molecules, resulting in solubility. Additionally, the small size of methane molecules enables them to fit between the larger oil molecules.
Yes; the reaction is: CH4 + 2 O2 = CO2 + 2 H2O
Nobody made a tetrahedron. Tetrahedral molecules, such as methane, exist in outer space and were present long before the solar system formed. There was nobody around to invent it then!
0.673 moles methane ( 6.022 X 10^23/1 mole CH4) = 4.05 X 10^23 molecules of methane
If you think to 4 moles of methane the number is 24,088563428.10e+23.
No, CH4 (methane) cannot exist as a pair of enantiomers. Enantiomers are non-superimposable mirror images of chiral molecules, which require a carbon atom with four different substituents. Since methane has four identical hydrogen atoms attached to a single carbon atom, it lacks the necessary asymmetry to form enantiomers.