Concept explainers
(a)
The amount of heat that need to flow into Zan to completely melt his body.
(a)
Answer to Problem 84PQ
The amount of heat that need to flow into Zan to completely melt his body is
Explanation of Solution
Zan is initially existing as ice at temperature
In order Zan to completely melt his body, first the
Write the expression for the heat corresponding to temperature change.
Here,
Write the expression for the heat required for phase transition from solid to liquid.
Here,
Write the expression for the total heat absorbed by the body in the process.
Conclusion:
Substitute
Substitute
Substitute
Therefore, the amount of heat that need to flow into Zan to completely melt his body is
(b)
The amount of additional heat required to make the water form of Zan’s body to become vapor at
(b)
Answer to Problem 84PQ
The amount of additional heat required to make the water form of Zan’s body to start vaporizing at
Explanation of Solution
Initial temperature of water is
Write the expression for the heat corresponding to the temperature change.
Conclusion:
Substitute
Therefore, the amount of additional heat required to make the water form of Zan’s body to start vaporizing at
(c)
The amount of additional heat required to make the
(c)
Answer to Problem 84PQ
The amount of additional heat required to make the
Explanation of Solution
The mass of water is
Write the expression for the heat corresponding to the phase transition from liquid to vapor.
Here,
Conclusion:
Substitute
Therefore, the amount of additional heat required to make the
(d)
The average kinetic energy of one of water vapor molecule that make up Zan.
(d)
Answer to Problem 84PQ
The average kinetic energy of one of water vapor molecule that make up Zan is
Explanation of Solution
The temperature of the water vapor is
Write the expression for the average kinetic energy of one molecule of water vapor.
Here,
Conclusion:
Substitute
Therefore, the average kinetic energy of one of water vapor molecule that make up Zan is
Want to see more full solutions like this?
Chapter 21 Solutions
Physics for Scientists and Engineers: Foundations and Connections
- B: A sample of hydrogen gas was found to have pressure of 125 kPa when the temperature was 23°C. What can its pressure be expected to be when the temperature is 11°C.arrow_forwardImagine you drop three identical (same mass, same material, same shape), room temperature cubes into a pot of boiling water. After five minutes, you dump them out on a table and measure their temperatures. a. Is there any situation in which one cube could have a much higher temperature than the other two? b. Is there any situation in which all three cubes could have the same temperature as one another? c. Is there any situation in which at least one cube could have a temperature less than room temperature? (I.e., the cube got colder in the water.)arrow_forwardThe specific heat at constant volume of a particular gas is 0.182 kcal/kg.k at room temperature and it's molecular mass is 34. a) what is its specific heat at constant pressure? b) what do you think is the molecular structure of this gas?arrow_forward
- A 50.0 g iron rod is heated to an unknown initial temperature. While cooling down to a temperature of 25.0 ºC, the rod releases 300.1 J of energy. The specific heat of iron is 0.452 J/g ºC and the density is 7.87 g/cm3. If the mass of the iron were increased to 100. grams: Group of answer choices A. The density and specific heat would increase. B. The density, specific heat and energy released would stay the same C. The volume of the iron and the heat capacity would increase. D. The density, specific heat and energy released would all increase.arrow_forwardYou are building a container out of polystyrene to hold a liquid at 80 °C.The surface area of this container is 1.2 m2.a. If energy is being added at a rate of 50 J/s (that is, 50 W), how thick mustthe container be to keep the outside temperature below 30 °C?b. What would be the required thickness if the container were instead madeout of nickel?arrow_forwardA sphere of radius 0.50 m, temperature 25.0 °C, and emissivity 0.850 is located in an environment of temperature 75.0 °C. a. At what rate does the sphere emit thermal radiation? b. What rate does the sphere absorb thermal radiation? c. What is the sphere’s net rate of energy exchange?arrow_forward
- A superhero is building a suit of armor made of Vibranium (Vb). To mold the headpiece of this suit, he need to heat 1 kg of the metal into its forging temperature. Its forging temperature must be at least 70% of its melting point in Kelvin (MPyB = 3297 K). Assuming that the melting point and the forging temperature of Vb can be achieved, answer the following questions. a. Determine the specific heat capacity (J/kg-°C) of Vb if it loses 519.2775 kJ as it is being cooled from its melting point down to its forging temperature. b. The newly forged headpiece is then submerged in 2.5 L of liquid water initially at room temperature. Since the headpiece is still at its forging temperature right before it was submerged in water, some of the water vaporized in the process. What is the volume (L) of the remaining liquid water if the headpiece and the remaining water are in thermal equilibrium at 50 °C?arrow_forwardQ1: An electric heater contains 40 liter of water initially at a mean temperature of 15°C. 0.25 kWh is supplied to the water by the heater. Assuming no heat losses, what is the final mean temperature of the water? Note that 4185 J taking to rise the temperature of 1 liter of water 1°C.arrow_forwarda. A copper bar is 1.0m long at 20 degrees celcius. At what temperature by 1.0 mm. b. A steel tape is calibrated at 20 degrees celcius. On a cold day when the temperature is -15 degress celcius , what will be the percent error in the tape?arrow_forward
- a. Compute the specific heat capacity at constant volume of nitrogen (N2) gas. The molar mass of N2 is 28.0 g/mol. b. You warm 1.15 kg of water at a constant 1L volume from 20∘C to 30∘C in a kettle. For the same amount of heat, how many kilograms of 20∘C air would you be able to warm to 30∘C? Make the simplifying assumption that air is 100% N2. What volume would this air occupy at 20∘C and a pressure of 1 atm ?arrow_forwardAs part of your work-study program at HTU, you successfully got a student job at your local ‘BEST-BURGER-IN-TOWN’ to help pay your own tuition and expenses. Since cylindrical frozen burger patties are cooked when placed on a hot stainless-steel cooking top, you like to think of the case as a conduction problem: a.Write down the appropriate general heat conduction equation that describes the cooking of those beef patties. b.Clearly state all assumptions. c.After cancelling the proper terms, write down the final energy equation for the patties. Do not solve for temperature distribution or heat transfer.arrow_forwardWater vapor at 100 degrees Celsius is put in contact with ice at 0 degrees Celsius and this mixture eventually results in 45 kg of liquid water at 30 degrees Celsius. A. How many kilograms of ice were part of the mixture? B. How many kilograms of steam were part of the mixture?arrow_forward
- Principles of Physics: A Calculus-Based TextPhysicsISBN:9781133104261Author:Raymond A. Serway, John W. JewettPublisher:Cengage LearningPhysics for Scientists and Engineers: Foundations...PhysicsISBN:9781133939146Author:Katz, Debora M.Publisher:Cengage Learning