both chlorint atoms has equal and apposite repulsive force
Yes, it is true.
Electro negativity difference is zero.So dipole moment is zero.
Yes, CH3Cl (methane) has dipole-dipole attractions. This is because the molecule has a net dipole moment resulting from the uneven distribution of electrons around the carbon and chlorine atoms. This dipole moment allows CH3Cl to exhibit dipole-dipole interactions with other polar molecules.
cs2 does nota dipole momentbecause it is liner
The dipole moment of a solvent is a measure of its polarity, which indicates the separation of positive and negative charges within the molecule. Highly polar solvents have a large dipole moment, while nonpolar solvents have a dipole moment close to zero. The dipole moment of a solvent influences its ability to dissolve polar or ionic solutes.
Yes, it is true.
NH3 is polar compound.So dipole moment is not zero.
Electro negativity difference is zero.So dipole moment is zero.
Symmetric molecules like carbon dioxide (CO2) have no dipole moment because the bond dipoles cancel each other out, resulting in a net dipole moment of zero. Other examples include benzene (C6H6) and methane (CH4).
Two reasons the bonds are not very polar AND even if they were the bond dipoles would cancel one another out as they point in different directions CH4 is tetrahedral. CCl4, also tetrahedral, definitely has polar bonds but because they cancel one another out it has no dipole
Symmetric molecules such as carbon dioxide (CO2) have zero dipole moment because the individual bond dipoles cancel each other out due to the molecule's symmetric geometry. This results in no overall net dipole moment for the molecule.
Yes, CH3Cl (methane) has dipole-dipole attractions. This is because the molecule has a net dipole moment resulting from the uneven distribution of electrons around the carbon and chlorine atoms. This dipole moment allows CH3Cl to exhibit dipole-dipole interactions with other polar molecules.
Symmetry affects the dipole moment of a molecule by determining whether the individual dipole moments of its bonds cancel out or add up. A molecule with overall symmetry may have a zero dipole moment due to opposing dipoles, while asymmetric molecules will have a non-zero dipole moment. Symmetry can influence the overall polarity and reactivity of the molecule.
The dipole moment of 1,1-dibromoethene would depend on the orientation of the bromine atoms relative to the double bond. If the bromine atoms are on opposite sides of the double bond (trans configuration), the dipole moment would be zero. If the bromine atoms are on the same side of the double bond (cis configuration), the molecule would have a non-zero dipole moment.
cs2 does nota dipole momentbecause it is liner
The dipole moment of ozone is about 0.53 Debye. Ozone has a bent molecular structure with an uneven distribution of electron density, creating a permanent dipole moment.
The dipole moment of a solvent is a measure of its polarity, which indicates the separation of positive and negative charges within the molecule. Highly polar solvents have a large dipole moment, while nonpolar solvents have a dipole moment close to zero. The dipole moment of a solvent influences its ability to dissolve polar or ionic solutes.