a) covalent bonds
b) hybridization
c) hydrogen bonds
d) london dispersion forces
b) hybridization
c) hydrogen bonds
d) london dispersion forces
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The answer is D- london dispersion forces. It is one of two intermolecular forces that is present in all molecules!
Option A is not an intermolecular force. It is an actual Bond.
B is not an intermolecular forces. Hybridization is what happens when orbitals are mixed examples s-orbital mixed with P-orbitals making sp orbitals,
Options C only happens with molecules that have Oxygen, Nitrogen or Fluorine and obviously Hydrogen. So it is very specific.
Option A is not an intermolecular force. It is an actual Bond.
B is not an intermolecular forces. Hybridization is what happens when orbitals are mixed examples s-orbital mixed with P-orbitals making sp orbitals,
Options C only happens with molecules that have Oxygen, Nitrogen or Fluorine and obviously Hydrogen. So it is very specific.
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D) london dispersion forces
non polar molecules meaning no parial charges on the molecule soo it cant be hydrogen bonds cause they result from the partial negative and positive charges,hybridization is the mixing of orbitals of an atom no bonding , covalent bonds apply to some not all and london dispersion forces applies to everything its the charge created for a moment in time due to the unpredictable movement of electrons which causes partial charges for that moment
non polar molecules meaning no parial charges on the molecule soo it cant be hydrogen bonds cause they result from the partial negative and positive charges,hybridization is the mixing of orbitals of an atom no bonding , covalent bonds apply to some not all and london dispersion forces applies to everything its the charge created for a moment in time due to the unpredictable movement of electrons which causes partial charges for that moment
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Hydrogen bonds
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D
100% sure
100% sure