Engineering Fundamentals: An Introduction to Engineering, 4th ed.c

11.2 Measurement of Temperature and Its Units 309

understood by all. In other words, we need to establish and use the same units and scales that

are understood by everyone.

Another example of how people relied on their senses to quantify temperature is the way

blacksmiths used to use their eyes to estimate how hot a fire was. They judged the temperature

by the color of the burning fuel before they placed the horseshoe or an iron piece in the fire. In

fact, this relationship between the color of heated iron and its actual temperature has been mea-

sured and established. Table 11.1 shows this relationship.

From these examples, you see that our senses are useful in judging how cold or how hot

something is, but they are limited in accuracy and cannot quantify a value for a temperature.

Thus, we need a measuring device that can provide information about the temperature of some-

thing more accurately and effectively.

This need led to the development of thermometers, which are based on thermal expan-

sion or contraction of a fluid, such as alcohol, or a liquid metal, such as mercury. All of you

know that almost everything will expand and its length increase when you increase its tem-

perature, and it will contract and its length decrease when you decrease its temperature. We

will discuss thermal expansion of material in more detail later in this chapter. But for now,

remember that a mercury thermometer is a temperature sensor that works on the principle

of expansion or contraction of mercury when its temperature is changed. Most of you have

seen a thermometer, a graduated glass rod that is filled with mercury. On the Celsius scale,

under standard atmospheric conditions, the value zero wasarbitrarilyassigned to the tem-

perature at which water freezes, and the value of 100 was assigned to the temperature at

which water boils. This procedure is calledcalibrationof an instrument and is depicted in

Figure 11.4. It is important for you to understand that the numbers were assigned arbitrar-

ily; had someone decided to assign a value of 100 to the ice water temperature and a value

of 1000 to boiling water, we would have had a very different type of temperature scale today!

In fact, on a Fahrenheit temperature scale, under standard atmospheric conditions, the tem-

perature at which water freezes is assigned a value of 32, and the temperature at which the

TABLE 11.1 The Relation of Color to Temperature of Iron

Color Temperature (F)

Dark blood red, black red 990

Dark red, blood red, low red 1050

Dark cherry red 1175

Medium cherry red 1250

Cherry, full red 1375

Light cherry, light red 1550

Orange 1650

Light orange 1725

Yellow 1825

Light yellow 1975

White 2200

Source:MARK’S STANDARD HANDBOOK FOR MECHANICAL ENGINEERS. 8TH EDITION by Baumeister

et al. Copyright 1978 by MCGRAW-HILL COMPANIES, INC. - BOOKS. Reproduced with permission of

MCGRAW-HILL COMPANIES, INC. - BOOKS in the format Textbook via Copyright Clearance Center.

Copyright 2010 Cengage Learning. All Rights Reserved. May not be copied, scanned, or duplicated, in whole or in part. Due to electronic rights, some third party content may be suppressed from the eBook and/or eChapter(s).

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