What type(s) of intermolecular forces are expected between triethylamine molecules? CH₂CH3 CH3CH₂NCH₂CH3 Indicate with yes or no which apply. dipole forces induced dipole forces hydrogen bonding C C C

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### Understanding Intermolecular Forces in Triethylamine #### Question: *What type(s) of intermolecular forces are expected between triethylamine molecules?* #### Diagram: The molecular structure of triethylamine is given as follows: ``` CH2CH3 | CH3CH2NCH2CH3 ``` #### Answer Selection: **Indicate with **yes** or **no** which apply:** 1. **Dipole forces** - [ Dropdown menu with options yes and no ] 2. **Induced dipole forces** - [ Dropdown menu with options yes and no ] 3. **Hydrogen bonding** - [ Dropdown menu with options yes and no ] To understand the correct options, it is essential to know the nature of intermolecular forces: - **Dipole forces** (dipole-dipole interactions) occur between molecules that have permanent dipoles. - **Induced dipole forces** (London dispersion forces) are temporary dipoles induced in atoms or molecules. - **Hydrogen bonding** is a special type of strong dipole-dipole attraction, occurring only when hydrogen is directly bonded to a highly electronegative atom like nitrogen, oxygen, or fluorine. **Note:** The dropdown menu allows users to select either "yes" or "no" for each type of intermolecular force to indicate whether it is present in triethylamine molecules.