Skip to main content
Pearson+ LogoPearson+ Logo
Ch.12 - Liquids, Solids & Intermolecular Forces
Back
Previous problem
Next problem
All textbooksTro 5th EditionCh.12 - Liquids, Solids & Intermolecular ForcesProblem 85

Chapter 12, Problem 85

The vapor pressure of water at 25 °C is 23.76 torr. If 1.25 g of water is enclosed in a 1.5-L container, will any liquid be present? If so, what mass of liquid?

Verified Solution
Video duration:
4m
This video solution was recommended by our tutors as helpful for the problem above.
4246
views
1
rank
Was this helpful?

Video transcript

Hey everyone, we're told that at negative 45.4 degrees Celsius, the vapor pressure of ammonia is 400 millimeters of mercury. Is there a liquid present? If 1.5 g of ammonia is enclosed in a 2.0 liter vessel. If so determined the mass of liquid ammonia present. To answer this question, we first need to calculate the number of moles of ammonia in the gas phase and we can do so by using our ideal gas law equation, which is our pressure times volume equals the number of moles times r gas constant times our temperature. But since we want to solve for the number of moles of ammonia, we can go ahead and rearrange this equation into the number of moles is equal to our pressure times volume divided by our gas constant times our temperature. So let's go ahead and write out our values first. We were told that our pressure is going to be of mercury. Now we want to convert this into atmospheric pressure And we can do so by using dimensional analysis and we know that we have 760 of mercury Per one atmospheric pressure. So when we calculate this out, we end up with 0.5263 atmospheric pressure For our volume. We were told that we had 2.00 leaders And our temperature was said to be -45.4°C, which we want to change into Kelvin. So we can go ahead and add 273.15, which gives us a temperature of 227.75 Kelvin. So let's go ahead and solve for the number of moles of our ammonia in the gaseous state. So plugging in our values, we have 0.5263 atmospheric pressure for our pressure. And this is going to be multiplied by 2.00 leaders. Next, we're going to divide this all by our gas constant, which is 0. leaders times atmospheric pressure divided by mole times kelvin. And we're going to multiply this value by our temperature of .75 Kelvin. Now, when we calculate this out and cancel out all of our units, We end up with 0.0563 mol. Next we're going to calculate the mass of ammonia in our gas phase. To do so we're going to take the number of moles which we calculated to be 0.056, three more. And we're going to use dimensional analysis here to convert it instagrams. Using the molar mass of ammonia, we have 17.31 g per one mole of ammonia. Now this gets us to a value of 0.9588 g. Now we're going to determine the mass of ammonia remaining as a liquid. So to calculate the mass of ammonia as a liquid, we're going to take our total mass and subtract the mass of ammonia in its gas phase. So, plugging in these values, we have 1.05 g which was said to us in our question stem and we're going to subtract 0. g. Now this gets us to a total of 0.0912 g and this is going to be our final answer. So yes, there is zero .0912g of liquid ammonia present. Now, I hope this made sense and let us know if you have any questions.
Previous problemNext problem
Related Practice
Textbook Question

Water is a good solvent for many substances. What is the molecular basis for this property, and why is it significant?

649
views
Textbook Question

Explain the observed trend in the melting points of the hydrogen halides.

HI -50.8 °C

HBr -88.5 °C

HCl -114.8 °C

HF -83.1 °C

3571
views
Textbook Question

Explain the observed trend in the boiling points of these compounds.

H2Te -2 °C

H2Se -41.5 °C

H2S -60.7 °C

H2O 100 °C

2644
views
Textbook Question

The vapor pressure of CCl3F at 300 K is 856 torr. If 11.5 g of CCl3F is enclosed in a 1.0-L container, will any liquid be present? If so, what mass of liquid?

990
views
Textbook Question

A sample of steam with a mass of 0.552 g and at a temperature of 100 °C condenses into an insulated container holding 4.25 g of water at 5.0 °C. Assuming that no heat is lost to the surroundings, what is the final temperature of the mixture?

1892
views
Textbook Question

Air conditioners not only cool air, but dry it as well. A room in a home measures 6.0 m * 10.0 m * 2.2 m. If the outdoor temperature is 30 °C and the partial pressure of water in the air is 85% of the vapor pressure of water at this temperature, what mass of water must be removed from the air each time the volume of air in the room is cycled through the air conditioner? (Assume that all of the water must be removed from the air.) The vapor pressure for water at 30 °C is 31.8 torr.

997
views
3
rank