In CH4, carbon forms four covalent bonds with four hydrogen atoms to achieve a stable electron configuration. Carbon contributes 4 valence electrons and each hydrogen contributes 1 valence electron, resulting in a total of 8 electrons around carbon, fulfilling the octet rule. This sharing of electrons between the atoms creates a stable molecule of methane.
The bond line formula for methane is CH4.
Covalent bonding occurs in CH4. In a covalent bond, atoms share electrons to achieve a full outer shell and become stable. Each hydrogen atom in CH4 shares its electron with the carbon atom, leading to the formation of a stable molecule.
Option E (CH4) would not make a good electron pair donor in the formation of a coordinate covalent bond because methane does not possess a lone pair of electrons on the central carbon atom to donate for bond formation. The other options, A (H2O), B (NH3), C (PF3), and D (Cl-), are all capable of acting as electron pair donors due to the presence of lone pairs that can be shared with electron-deficient species.
CH4 forms a covalent bond. In a covalent bond, atoms share electrons to achieve a stable electron configuration. In the case of CH4, each hydrogen atom shares one electron with the carbon atom to complete its outer shell, resulting in a stable methane molecule.
No, CH4 does not have hydrogen bond. Hydrogen bonding occurs when hydrogen is bonded to highly electronegative elements like oxygen, nitrogen, or fluorine, which is not the case in CH4 where hydrogen is bonded to carbon.
The bond line formula for methane is CH4.
Covalent bonding occurs in CH4. In a covalent bond, atoms share electrons to achieve a full outer shell and become stable. Each hydrogen atom in CH4 shares its electron with the carbon atom, leading to the formation of a stable molecule.
Option E (CH4) would not make a good electron pair donor in the formation of a coordinate covalent bond because methane does not possess a lone pair of electrons on the central carbon atom to donate for bond formation. The other options, A (H2O), B (NH3), C (PF3), and D (Cl-), are all capable of acting as electron pair donors due to the presence of lone pairs that can be shared with electron-deficient species.
1S2 2S2 2P2, but during the formation of bond with another atom it gets hybridised. example: during the formation of methane(CH4) its outermost shell gets hybridised to SP3.
Methane CH4
yes it does
CH4 ia not polar.So the intra molecular force is london force
The CH4 Bond Angle Will Be 109.5 Degrees Because It Has a Tetrahedral Molecular Geometry.
C-H bond of it is polar.CH4 has four such bonds
yes, methane is CH4
CH4 forms a covalent bond. In a covalent bond, atoms share electrons to achieve a stable electron configuration. In the case of CH4, each hydrogen atom shares one electron with the carbon atom to complete its outer shell, resulting in a stable methane molecule.
CH4 is one