《usingdifferenttemperaturescales》由会员分享,可在线阅读,更多相关《usingdifferenttemperaturescales(4页珍藏版)》请在金锄头文库上搜索。
1、Using Different Temperature Scales Why? Different scales commonly are used in measuring temperature, and the relationships of one scale to others are necessary quantities to remember or be able to deduce. Temperature is important because it is a measure of the amount of energy associated with the mo
2、tion of atoms and molecules, and consequently, it is associated with many aspects of chemistry such as the properties of gases and rates of chemical reactions. You will find converting from one temperature scale to another easy if you remember that the relationship of the scales to each other is lin
3、ear. Learning Objectives Define common temperature scales. Convert from one temperature scale to another. Success Criteria Deduce quickly how to make conversions from one scale to another. Resources Olmsted and Williams (Chemistry, Wiley, 2002) pp. 20-22. Prerequisites linear functions and graphs, b
4、oiling point, freezing point, melting point New Concepts temperature, temperature scales Vocabulary energy, cryogenic, gallium arsenide diode, Kelvin, Celsius, Fahrenheit Definitions In your own words, write definitions of the terms in the New Concepts and Vocabulary sections. Using Different Temper
5、ature Scales Model: Fahrenheit and Celsius Temperature Scales-50050100150200250300-50-250255075100125CelsiusFahrenheitThe relationship between the Fahrenheit and Celsius temperature scales is linear. It is expressed by the mathematical equation, o o FCo9 FTT32 F5 C=+ (Eq. 1) which is equivalent to t
6、he equation for a straight line on a graph, yaxb=+ (Eq. 2) where a is the slope of the graph and b is the y-intercept where x = 0. The freezing point and boiling point of water at 1 atmosphere pressure define these scales. The freezing point of water is 0 oC or 32 oF, and the boiling point is 100 oC
7、 or 212 oF Using Different Temperature Scales Key Questions 1. What properties of water are used to define two points on a temperature scale? 2. What is the form of the graph made by plotting the Fahrenheit temperature as a function of the Celsius temperature? 3. Are the sizes of the degrees the sam
8、e or different on each of these scales? How do you know? 4. What is the relationship of the factor (9/5) in Eq. 1 to the graph? 5. In general, how can you derive or deduce the equation relating two linear temperature scales? Exercises 1. Mark the freezing and boiling points of water on the graph lin
9、e in the model. 2. For some temperature interval, determine the ratio of the number of Fahrenheit degrees to the number of Celsius degrees. 3. Identify how the value you obtained in Exercise 2 is related to the slope of the graph line in the model. 4. Derive the complementary equation that enables y
10、ou to calculate TC from TF. Using Different Temperature Scales 5. Sketch the graph that corresponds to the equation you derived in Exercise 4. Put TC on the y-axis and TF on the x-axis. 6. Determine the values of the slope and the y-intercept for this graph line, and relate these values to your equa
11、tion giving TC as a function of TF. 7. Complete the following table. Fahrenheit Celsius Kelvin Example 92 a hot summer day 15 80 boiling point of liquid air - 25 a cold winter day in the Midwest Problem The voltage across a gallium arsenide diode often is used to measure low temperatures because it
12、is stable, reproducible, and decreases linearly with increasing temperature above 20 K. The boiling points of liquid nitrogen (77.4 K) and liquid hydrogen (20.3 K) are used for calibration. Such a diode in a cryogenic chemistry laboratory at Stony Brook produces a voltage of 1.193 V when immersed in
13、 liquid nitrogen and 1.615 V when immersed in liquid hydrogen at one atmosphere pressure. (a) Derive an equation relating the Kelvin temperature to the diode voltage. (b) What is the Kelvin temperature when the diode voltage is 1.545 V? (c) What is the Celsius temperature at this diode voltage? (d) What is the Fahrenheit temperature at this diode voltage?
