$\text{The total number of molecules with zero dipole moment among CH}_4, \text{ BF}_3, \text{ H}_2\text{O, HF, NH}_3, \text{ CO}_2 \text{ and} \\ \text{SO}_2 \text{ is \_\_\_\_\_\_\_\_.}$
Correct Answer: 3
Approach Solution - 1
To determine the number of molecules with zero dipole moment among the given set (CH4, BF3, H2O, HF, NH3, CO2, SO2), we analyze each molecule's structure and geometry.
CH4: Tetrahedral geometry with symmetrical distribution of charge. Resultantly, it has a zero dipole moment.
BF3: Trigonal planar geometry, symmetry in the molecule cancels out dipoles, resulting in a zero dipole moment.
H2O: Bent geometry with a dipole moment due to the lone pairs on oxygen causing an asymmetric charge distribution.
HF: Linear molecule, but the difference in electronegativity induces a dipole moment.
NH3: Trigonal pyramidal geometry with a net dipole moment due to the lone pair on nitrogen.
CO2: Linear geometry; symmetrical opposite dipoles cancel out, resulting in a zero dipole moment.
SO2: Bent geometry with a net dipole moment due to the asymmetric distribution of electrons.
Upon reviewing, CH4, BF3, and CO2 have zero dipole moments. Therefore, the total number is 3.
Approach Solution -2
Molecules with zero dipole moment are \( \text{CO}_2 \), \( \text{CH}_4 \), and \( \text{BF}_3 \).
Thus, the total number of molecules with zero dipole moment is: 3.
The Correct Answer is: 3
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