Where, approximately, is the negative pole on each of these molecules? H towards the 0 atom between the O and F atoms between the F atoms towards the 0 atom toward one of the F atoms between the F and H atoms Which molecule should have the higher dipole moment, and why? COF2 because it contains more lone pairs. COFH because the polar bonds in COF2 nearly cancel each other out. COF2 because it contains more F atoms.

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### Dipole Moment and Polarity in Molecules #### Molecule Polarity **Question:** Where, approximately, is the negative pole on each of these molecules? **Molecules:** 1. **Carbonyl Fluoride (COF₂):** - Structure: A carbon atom double-bonded to an oxygen atom and single-bonded to two fluorine atoms. The fluorine atoms have lone pairs. - Options: - Towards the O atom - Between the F atoms - Toward one of the F atoms 2. **Formyl Fluoride (COFH):** - Structure: A carbon atom double-bonded to an oxygen atom, single-bonded to a fluorine atom, and single-bonded to a hydrogen atom. The fluorine atom has lone pairs. - Options: - Between the O and F atoms - Towards the O atom - Between the F and H atoms #### Analyzing Dipole Moments **Question:** Which molecule should have the higher dipole moment, and why? **Options:** - COF₂ because it contains more lone pairs. - COFH because the polar bonds in COF₂ nearly cancel each other out. - COF₂ because it contains more F atoms. Understanding the dipole moment in these molecules involves considering the electronegativity of the atoms and the molecular geometry, which affects how dipoles cancel or reinforce each other.