Compare the strength of IMFs present in three liquids. The liquids are in separate containers. A. CH 3 CH 2 NH 2 (liquid) B. CH 3 CH 2 F (liquid)

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Compare the strength of IMFs present in three liquids. The liquids are in separate containers. A. CH 3 CH 2 NH 2 (liquid) B. CH 3 CH 2 F (liquid) C. CH 3 CH 2 OH (liquid) Draw two 3D Lewis Structures of each compound near enough to have electrostatic attractions Identify the δ+ and δ- atoms Identify the location of the IMFs by using a dashed or dotted line Identify the type of IMFs present in each liquid. Which sample of liquid of each compound has the higher boiling point?

Intermolecular Forces and Model Kit Activity In-class activity If you and your buddy have a model kit, talk to your neighboring group having the other model kit. Part A. Each group builds one CH 3 CH 2 NH 2 model. Use your Table of Electronegativity Values of the Elements to determine which atom(s) has/have a partial positive charge (δ+) and which atom(s) has/have a partial negative charge (δ+). Determine the ΔEN between the atoms. Bring the two models closed together. Use the correct rubber band to connect the two CH 3 CH 2 NH 2 models by the primary IMF at the correct atom locations. How many possible different arrangements are there? Identify the IMF. Classify the strength of the IMF as weak, medium, or strong. Sketch two 3D Lewis structures representing the two models and use a dashed line to show the correct location of the IMF.

Hydrogen bond IMF δ+ δ- δ- δ+ CH 3 CH 2 NH 2 (liquid) Atom EN H 2.1 C 2.5 N 3.0 O 3.5 F 4.0

Intermolecular Forces and Model Kit Activity In-class activity Part B Talk to your neighboring group having the other model kit. Each group builds one CH 3 CH 2 F model. Use your Table of Electronegativity Values of the Elements to determine which atom(s) has/have a partial positive charge (δ+) and which atom(s) has/have a partial negative charge (δ+). Determine the ΔEN between the atoms. Bring the two models closed together. Use the correct rubber band to connect the two CH 3 CH 2 F models by the primary IMF at the correct atom locations. How many possible different arrangements are there? Identify the IMF. Classify the strength of the IMF as weak, medium, or strong. Compare the IMF between these two models and the IMF between the two CH 3 CH 2 NH 2 models. Which is stronger? Explain. Sketch two 3D Lewis structures representing the two models and use a dashed line to show the correct location of the IMF.

Dipole-dipole IMF δ- CH 3 CH 2 F (liquid) δ+ δ- δ+ δ+ Atom EN H 2.1 C 2.5 N 3.0 O 3.5 F 4.0

Intermolecular Forces and Model Kit Activity In-class activity Part B Talk to your neighboring group having the other model kit. Each group builds one CH 3 CH 2 OH model. Use your Table of Electronegativity Values of the Elements to determine which atom(s) has/have a partial positive charge (δ+) and which atom(s) has/have a partial negative charge (δ+). Determine the ΔEN between the atoms. Bring the two models closed together. Use the correct rubber band to connect the two CH 3 CH 2 OH models by the primary IMF at the correct atom locations. How many possible different arrangements are there? Identify the IMF. Classify the strength of the IMF as weak, medium, or strong. Compare the IMF between these two models and the IMF between the two CH 3 CH 2 NH 2 models. Which is stronger? Explain. Sketch two 3D Lewis structures representing the two models and use a dashed line to show the correct location of the IMF.

Hydrogen bond IMF δ- δ+ δ+ δ- CH 3 CH 2 OH (liquid)

CH3CH2OH (liquid)

Which of the following does not form hydrogen bonds with other molecules? A. CH 3 -CH 2 -NH 2 B. CH 3 -CH 2 -OH C. CH 3 -CH 2 F

Which of the following liquids will have the higher boiling point? Explain. A. CH 3 -CH 2 -NH 2 B. CH 3 -CH 2 -OH C. CH 3 -CH 2 F

CH 3 CH 2 NH 2 (liquid) 45 g/mol +17 C 1.5

The electronegativity of N (3.0) is less than that of F (4.0), so N-H bonds (ΔEN = 0.9) are less polar than O-F bonds (ΔEN = 1.5). However, the total number of hydrogen bonds among CH 3 CH 2 NH 2 molecules results in a stronger overall attraction than the C - - - F dipole-dipole IMFs between CH 3 CH 2 F molecules. This medium N- - - H hydrogen bonding IMF and the number of H Bonds leads to boiling points for 1 and 2 amines that are higher than those of halogen alkanes of comparable molecular mass. CH 3 CH 2 NH 2 (liquid) b.p. = +17 C CH 3 CH 2 F (liquid) b.p. = -32 C

CH 3 CH 2 OH(liquid) 46 g/mol CH 3 CH 2 NH 2 (liquid) 45 g/mol +78 C +17 C 1.69 1.5

The electronegativity of N (3.0) is less than that of O (3.5), so N-H bonds (ΔEN = 0.9) are less polar than O-H bonds (ΔEN = 1.4), and their hydrogen bonds are correspondingly weaker than O-H hydrogen bonds. This medium N - - - H hydrogen bonding IMF leads to boiling points for 1 and 2 amines that are significantly higher than those of halogen alkanes of comparable molecular mass, but significantly lower than those of comparable alcohols. CH 3 CH 2 NH 2 (liquid) b.p. = +17 C CH 3 CH 2 OH (liquid) b.p. = +78 C

Chapter 12: Intermolecular Forces, Liquids, and Solids Intermolecular Forces: T ( C) 100 0-100 -200 Smallest Least Polarizable HARD -300 Normal Boiling Points H 2 O NH 3 HF H 2 S H 2 Se CH 4 SiH 4 GeH 4 Ar Kr He Ne H 2 Te Xe SnH 4 Largest Most Polarizable SOFT 1 2 3 4 5 Period

Hydrogen bond IMF between NH 3 molecules

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