Concept explainers
Interpretation: For the given temperature in Fahrenheit, it should be converted the degree Fahrenheit to degree Celsius temperature with find the range among them.
Concept Introduction:
- Conversional formula from Celsius to Fahrenheit,
- Conversional formula from Celsius to Kelvin,
Answer to Problem 2PPB
The average surface temperatures of planets in our solar system range from
The average surface temperature of planets in our solar system range from−330°F on Neptune is
And the
Explanation of Solution
Explanation
To convert: These temperatures and the range they span to Celsius
The temperature conversion from Fahrenheit to Celsius is (
Conversional formula from Fahrenheit to Celsius is
The given temperature in Fahrenheit can be converted to Celsius as follows;
To convert: The given temperature in Fahrenheit to Celsius.
The temperature conversion from Fahrenheit to Celsius is
Conversional formula from Fahrenheit to Celsius is
The given temperature in Fahrenheit can be converted to Celsius as follows;
=
=
=
And the
Want to see more full solutions like this?
Chapter 1 Solutions
Chemistry: Atoms First
- define boyle 's temperature.arrow_forwardDennis obtained a clean, dry stoppered flask. He determined the mass of the flask and stopper to be 32.634 g.He then filled the flask with water and determined the mass of the full stoppered flask to be 59.479 g. Based on the temperature of the water, Dennis found the density of water in the Handbook of Chemistry and Physics to be 0.998730 g/mL. Calculate the volume of the flask.arrow_forwardYou and your friends are having lunch together and complaining about the cold weather. Kathy begins telling about her spring break trip to warm, sunny Spain. She starts to laugh when she tells the group that she was frustrated when she awoke on the first day to an outside temperature of 18° and a predicted high of 24°. Kathy was laughing because in Spain temperatures are measured in Celsius. What was the predicted high in Fahrenheit? > View Available Hint(s) O75.2 °F 6.2 °F 100.8 °F O75 °Farrow_forward
- You are asked to calibrate a 25 mL volumetric pipet. You determine that the temperature of your distilled water is exactly 24.5 degrees Celsius. You carefully determined the mass of a clean dry beaker and found that it was 57.5513 g. You pulled water up to the mark and transferred this to the beaker and found that the new mass was 82.9344 g. What is the actual volume of the pipet? The density of water at 24.5 degrees Celsius is 0.997983 g/mL.arrow_forward(a) The highest air temperature recorded in Antarctica is 15 °C (January 5, 1974). Convert this value to TF. (b) The lowest air temperature recorded in Antarctica is −128.6 °F (July 21, 1983). Convert this value to TC.arrow_forwardBelow are 3 real life situations. Pick two (2) them and explain ALL the science involved in the scenario. This means describe things like what is happening to the gas/liquid/solid molecules or atoms, which principles or laws are at work, why what is happening is happening, and how you know. At sea level, a pot of water will boil at 100 °C. Suppose you wanted to boil the same amount of water high in the Rocky Mountains. What do you expect the temperature will need to be (generally speaking)? Why? A can of soda sits in a sunny spot on the window sill for several hours. It is then opened at the same time as a cold can of soda from the refrigerator. What happens and why? Weather balloons do not float out into space. They reach an altitude of about 15 miles above the surface (3x the height of Mt Everest) and they burst. Why?arrow_forward
- Identify the following properties as either extensive or intensive. volume temperature humidity heat boiling pointarrow_forwardAn organic chemist isolates a colorless liquid from a petroleum sample. She places the liquid in a pre-weighed flask and puts the flask in boiling water, which vaporizes the liquid and fills the flask with gas. She closes the flask and reweighs it. She obtains the following data: Volume (V) of flask = 196 ml T = 99.1°C P= 751 mmHg mass of flask + gas = 81.5 g mass of flask = 78.3 g Calculate the molar mass (in g/mol) of the liquid.arrow_forwardYou are asked to calibrate a 25.00 mL volumetric pipet. You determine that the temperature of your distilled water is 24.5 degrees celsius. You carefully determined the mass of a clean dry beaker and found that it was 58.1884 g. You pulled water up to the mark and transferred this to the beaker and found that the new mass 82.9658 g. What is the actual volume delivered by the pipet?arrow_forward
- After sitting on a shelf for a while, a can of soda at a room temperature (69°F) is placed inside a refrigerator and slowly cools. The temperature of the refrigerator is 37°F. Newton's Law of Cooling explains that the temperature of the can of soda will decrease proportionally to the difference between the temperature of the can of soda and the temperature of the refrigerator, as given by the formula below: T = Ta + (To – Ta)e¬kt the temperature surrounding the object To = the initial temperature of the object t = the time in minutes the temperature of the object after t minutes k = decay constant T The can of soda reaches the temperature of 54°F after 40 minutes. Using this information, find the value of k, to the nearest thousandth. Use the resulting equation to determine the Fahrenheit temperature of the can of soda, to the nearest degree, after 95 minutes. Enter only the final temperature into the input box.arrow_forwardTom measures a balloon to have an initial volume of 306.4 ml. When he causes the temperature of the system to adjust to 286.2 K, the volume becomes 614.1 mL. What was the initial temperature in Kelvin?arrow_forwardYour baby brother is toddling around the house, playing with a toy balloon. You decide to teach him something about physics, so you take the balloon away from him and hide it in the freezer. (His cries are enough to convince you that he is excited about this learning experience.) a) If the temperature inside your house is 25° Celsius, while the temperature inside the freezer is -10° Celsius, then by what percentage will the volume of the balloon change? We will take the pressure inside the balloon as constant. When you put the balloon in the refrigerator, it will shrink. (Try it and see!) c) Sketch a p-V diagram for the gas inside the balloon as it cools inside the regrigerator. Label the axes as completely as possible according to the given information.arrow_forward
- Chemistry & Chemical ReactivityChemistryISBN:9781337399074Author:John C. Kotz, Paul M. Treichel, John Townsend, David TreichelPublisher:Cengage LearningChemistry by OpenStax (2015-05-04)ChemistryISBN:9781938168390Author:Klaus Theopold, Richard H Langley, Paul Flowers, William R. Robinson, Mark BlaserPublisher:OpenStax