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Physics for Scientists and Engineers, 6e. Chapter 19 - Temperature. Two objects, with different sizes, masses, and temperatures, are placed in thermal contact. Energy travels . from the larger object to the smaller object from the object with more mass to the one with less
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Physics for Scientists and Engineers, 6e Chapter 19 - Temperature
Two objects, with different sizes, masses, and temperatures, are placed in thermal contact. Energy travels • from the larger object to the smaller object • from the object with more mass to the one with less • from the object at higher temperature to the object at lower temperature
The direction of the transfer of energy depends only on temperature and not on the size of the object or on which object has more mass.
Consider the following pairs of materials. Which pair represents two materials, one of which is twice as hot as the other? • boiling water at 100°C, a glass of water at 50°C • boiling water at 100°C, frozen methane at -50°C • an ice cube at -20°C, flames from a circus fire-eater at 233°C • No pair represents materials one of which is twice as hot as the other
The phrase “twice as hot” refers to a ratio of temperatures. When the given temperatures are converted to kelvins, only those in part (3) are in the correct ratio.
If you are asked to make a very sensitive glass thermometer, which of the following working liquids would you choose? • mercury • alcohol • gasoline • glycerin
Gasoline has the largest average coefficient of volume expansion.
Two spheres are made of the same metal and have the same radius, but one is hollow and the other is solid. The spheres are taken through the same temperature increase. Which sphere expands more? • solid sphere • hollow sphere • They expand by the same amount. • not enough information to say
A cavity in a material expands in the same way as if it were filled with material.
A common material for cushioning objects in packages is made by trapping bubbles of air between sheets of plastic. This material is more effective at keeping the contents of the package from moving around inside the package on • a hot day • a cold day • either hot or cold days
On a cold day, the trapped air in the bubbles is reduced in pressure, according to the ideal gas law. Thus, the volume of the bubbles may be smaller than on a hot day, and the package contents can shift more.
A helium-filled rubber balloon is left in a car on a cold winter night. Compared to its size when it was in the warm car the afternoon before, the size the next morning is • larger • smaller • unchanged
Because of the decreased temperature of the helium, the pressure in the balloon is reduced. The atmospheric pressure around the balloon then compresses it to a smaller size until the pressure in the balloon reaches the atmospheric pressure.
On a winter day, you turn on your furnace and the temperature of the air inside your home increases. Assuming that your home has the normal amount of leakage between inside air and outside air, the number of moles of air in your room at the higher temperature is • larger than before • smaller than before • the same as before
Because of the increased temperature, the air expands. Consequently, some of the air leaks to the outside, leaving less air in the house.