Dipole-dipole because the H is not connected with F
IT would be
H
|
H- C - F
|
H
CH3F is both liquid and solid noble gas solution.
Ch3f
The bond angle of a CH3F molecule is approximately 109.5 degrees.
CH3F does not contain hydrogen bonding because hydrogen bonding occurs between hydrogen atoms bonded to highly electronegative atoms such as fluorine, oxygen, or nitrogen. In CH3F, the hydrogen atom is bonded to carbon, which is not electronegative enough to engage in hydrogen bonding.
CH3F - monofluoro methane or fluoro methane CH2F2 - difluoro methane CHF3 - trifluoroo methane CF4 - tetrafluoro methane
Yes. CH3F is the molecular formula of fluoromethane.
The prominent intermolecular force for this compound would be dipole dipole attraction forces since there is a polar C-F bond in each molecule. As there is many C-H bonds present, there would be London forces among those groups.
The reason ch3br or ch3f have higher boiling points compared to other compounds is because they have stronger intermolecular forces due to the presence of hydrogen bonding.
Yes, CH3F is a polar molecule. Fluorine is more electronegative than carbon and hydrogen, resulting in a partial negative charge on the fluorine atom and a partial positive charge on the hydrogen atoms, causing an uneven distribution of charge in the molecule.
The intermolecular forces of CH3F include dipole-dipole interactions and London dispersion forces. The molecule has a permanent dipole moment due to the difference in electronegativity between carbon, hydrogen, and fluorine atoms, leading to dipole-dipole attractions. Additionally, London dispersion forces, which result from temporary fluctuations in electron distribution, also contribute to the intermolecular forces in CH3F.
Yes, CH3F (methane) is a covalent compound because it is made up of nonmetal elements (carbon and hydrogen) sharing electrons to form bonds with fluorine. Covalent compounds are formed by a sharing of electrons between atoms.
This is an intermolecular force.