Yes, as there are no metals in this compound.
Yes! None of the atoms in CH3OH are metallic, so it is a covalent compound.
Yes, CH3F is covalent. It is a covalent compound that is made of polar covalent bonds between its carbon, hydrogen, and fluorine atoms.
CH3F contains no covalently bonded hydrogen atoms DIRECTLY to the Fluorine.
Yes.
These are polar forces, intermolecular forces of attraction between molecules.
Yes. CH3F is the molecular formula of fluoromethane.
CH3F is polar. Check the differences in electronegativity
CH3F is both liquid and solid noble gas solution.
Ch3f
CH3F contains no covalently bonded hydrogen atoms DIRECTLY to the Fluorine.
Yes.
These are polar forces, intermolecular forces of attraction between molecules.
Yes. CH3F is the molecular formula of fluoromethane.
Metahne does not have a higher boiling point than methane. Fluoromethane, CH3F, has a boiling point of 195K, -78.2C, methane, CH4, has a boiling point of 109K approx -164 C. I make that fluoromethane has a higher temeprature boiling point than methane. This is what you would expect, London dispersion forces will be greater in CH3F as it has more electrons than CH4. CH3F is polar and there will be dipole dipole interactions which will not be present in CH4.
CH3F is polar. Check the differences in electronegativity
Dipole-dipole because the H is not connected with F IT would be H | H- C - F | H
Fluoromethane, CH3F, contains 1 Carbon, 3 Hydrogen and 1 Fluorine atom bond together to the central Carbon.
CH3CHF2 is polar. If you draw the structure of the compound, you'll realize one C has 3 H ligands while the other C has 1 H ligand and 2 F ligands. As we know, polar=asymmetrical. Therefore, since both "tetrahedrals" are different, it is asymmetrical.
CH3F - monofluoro methane or fluoro methane CH2F2 - difluoro methane CHF3 - trifluoroo methane CF4 - tetrafluoro methane