Predicting missing boiling point in the following series of compounds:

If so, you may want to double check your data and calculations to make sure they are accurate. It seems like you have the right approach, but there may be a mistake in your process.
  • #1
Hooke's Law
30
0

Homework Statement



a) CH4 -164 C , SiH4 -112 C, GeH4, -90 C, SnH4, ? C.

b) H2O ? C, H2S -61 C, H2Se -41 C, H2Te -2 C




The Attempt at a Solution


a)This was an assignment and the right answer was T= -75 C. I did a graph starting from CH4 to SnH4 and I know this because its going down a group from the periodic table. But I don't know how to get the right answer ( -75 C)

b) Right answer : -71 C . Similarly, I did a graph from H2O to H2Te and didnt know how to get the right answer.

Thanks
 
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  • #2
Have you tried to extend the graph and read from it?
 

Related to Predicting missing boiling point in the following series of compounds:

1. What is the purpose of predicting missing boiling points in a series of compounds?

Predicting missing boiling points in a series of compounds allows us to understand the relationship between molecular structure and boiling point. This information is useful for identifying and classifying compounds, as well as predicting their physical properties.

2. How do scientists predict missing boiling points?

Scientists use various methods, such as quantitative structure-property relationships (QSPR) and molecular modeling, to predict missing boiling points. These methods involve analyzing the molecular structure of the compounds and their interactions with other molecules to determine their boiling points.

3. What factors affect the boiling point of a compound?

The boiling point of a compound is affected by several factors, including molecular weight, intermolecular forces, and the structure of the molecule. Generally, larger molecules and those with strong intermolecular forces have higher boiling points.

4. Can predicted boiling points be accurate?

The accuracy of predicted boiling points depends on the method used and the complexity of the compound. In some cases, predicted boiling points may be very close to the actual values, while in others there may be a larger margin of error. It is important to validate predicted boiling points with experimental data.

5. Why is it important to predict boiling points?

Predicting boiling points is important for several reasons. It allows us to understand the behavior of compounds and how they will interact with other substances. This is crucial in fields such as drug design, where the boiling point can affect the effectiveness and delivery of a medication. Additionally, predicting boiling points can save time and resources by narrowing down the number of compounds that need to be synthesized and tested.

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