Which Statement Best Compares The Melting Point Of Butane \[$\left( C _4 H _{10}\right)\$\] With That Of Octane \[$\left( C _8 H _{18}\right)\$\]?A. The Melting Points Of Both Substances Are Identical. B. The Melting Point Is Higher

Introduction

When comparing the physical properties of different substances, it's essential to consider the factors that influence their behavior. In this case, we're interested in the melting points of butane (C4H10) and octane (C8H18). These two hydrocarbons are both alkanes, a class of compounds that are characterized by their single bonds between carbon atoms. Understanding the melting points of these substances can provide valuable insights into their physical properties and potential applications.

What are Melting Points?

The melting point of a substance is the temperature at which it changes state from a solid to a liquid. This occurs when the molecules of the substance gain enough energy to break free from their rigid structure and begin to move more freely. The melting point is an important physical property that can be used to identify and characterize a substance.

Factors that Influence Melting Points

Several factors can influence the melting point of a substance, including:

• Molecular weight: Substances with higher molecular weights tend to have higher melting points due to the increased strength of the intermolecular forces between their molecules.
• Intermolecular forces: The strength of the intermolecular forces between molecules can also affect the melting point. Substances with stronger intermolecular forces tend to have higher melting points.
• Chain length: The length of the carbon chain in an alkane can also affect the melting point. Substances with longer carbon chains tend to have higher melting points due to the increased strength of the intermolecular forces between their molecules.

Comparing the Melting Points of Butane and Octane

Butane (C4H10) and octane (C8H18) are both alkanes with different molecular weights and chain lengths. Butane has a molecular weight of 58.12 g/mol and a chain length of 4 carbon atoms, while octane has a molecular weight of 114.23 g/mol and a chain length of 8 carbon atoms.

The strength of the intermolecular forces between the molecules of butane and octane is a key factor in determining their melting points.

Intermolecular Forces in Butane and Octane

The intermolecular forces between the molecules of butane and octane are primarily London dispersion forces, which are weak intermolecular forces that arise from the temporary dipoles that form between molecules. However, the strength of these forces increases with the size of the molecule, which means that octane, with its larger molecular weight and longer carbon chain, will have stronger intermolecular forces than butane.

Melting Points of Butane and Octane

The melting points of butane and octane are 139.9 K (-133.2°C) and 216.6 K (-56.5°C), respectively. As expected, the melting point of octane is higher than that of butane due to the stronger intermolecular forces between its molecules.

Conclusion

In conclusion, the melting point of butane (C4H10) is lower than that of octane (C8H18) due to the stronger intermolecular forces between the molecules of octane. This is a result of the increased strength of the London dispersion forces between the larger molecules of octane. Understanding the factors that influence the melting points of substances can provide valuable insights into their physical properties and potential applications.

Which Statement Best Compares the Melting Points of Butane and Octane?

Based on the information presented above, the correct answer is:

• B. The melting point is higher for octane.

This statement accurately reflects the comparison between the melting points of butane and octane, which are 139.9 K (-133.2°C) and 216.6 K (-56.5°C), respectively.

Q: What is the melting point of butane?

A: The melting point of butane (C4H10) is 139.9 K (-133.2°C).

Q: What is the melting point of octane?

A: The melting point of octane (C8H18) is 216.6 K (-56.5°C).

Q: Why is the melting point of octane higher than that of butane?

A: The melting point of octane is higher than that of butane due to the stronger intermolecular forces between the molecules of octane. This is a result of the increased strength of the London dispersion forces between the larger molecules of octane.

Q: What are the factors that influence the melting points of substances?

A: Several factors can influence the melting points of substances, including molecular weight, intermolecular forces, and chain length.

Q: How do molecular weight and chain length affect the melting points of substances?

A: Substances with higher molecular weights tend to have higher melting points due to the increased strength of the intermolecular forces between their molecules. Substances with longer carbon chains also tend to have higher melting points due to the increased strength of the intermolecular forces between their molecules.

Q: What type of intermolecular forces are present in butane and octane?

A: The intermolecular forces present in butane and octane are primarily London dispersion forces, which are weak intermolecular forces that arise from the temporary dipoles that form between molecules.

Q: Why are London dispersion forces important in determining the melting points of substances?

A: London dispersion forces are important in determining the melting points of substances because they are the primary type of intermolecular force present in non-polar molecules such as butane and octane. The strength of these forces increases with the size of the molecule, which means that larger molecules tend to have higher melting points.

Q: Can you provide examples of other substances with high melting points?

A: Yes, other substances with high melting points include:

• Diamond: Diamond has a melting point of 3823 K (3550°C)
• Graphite: Graphite has a melting point of 3823 K (3550°C)
• Tungsten: Tungsten has a melting point of 3695 K (3422°C)

Q: Can you provide examples of other substances with low melting points?

A: Yes, other substances with low melting points include:

• Helium: Helium has a melting point of 2.17 K (-270.98°C)
• Hydrogen: Hydrogen has a melting point of 14.01 K (-259.14°C)
• Neon: Neon has a melting point of 24.56 K (-248.59°C)

Q: How do you determine the melting point of a substance?

A: The melting point of a substance can be determined using a variety of methods, including:

• Differential scanning calorimetry (DSC): DSC is a technique that measures the heat flow into or out of a substance as it is heated or cooled.
• Thermal analysis: Thermal analysis is a technique that measures the thermal properties of a substance as it is heated or cooled.
• Melting point determination: Melting point determination is a technique that involves heating a substance until it melts and then measuring the temperature at which it melts.