1.6 Mathematical treatment of measurement results (Page 4/9)

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The linear equation relating Celsius and Fahrenheit temperatures is easily derived from the two temperatures used to define each scale. Representing the Celsius temperature as x and the Fahrenheit temperature as y , the slope, m , is computed to be:

m = \frac{Δ y}{Δ x} = \frac{212 °F - 32 °F}{100 °C - 0 °C} = \frac{180 °F}{100 °C} = \frac{9 °F}{5 °C}

The y-intercept of the equation, b , is then calculated using either of the equivalent temperature pairs, (100 °C, 212 °F) or (0 °C, 32 °F), as:

b = y - m x = 32 °F - \frac{9 °F}{5 °C} \times 0 °C = 32 °F

The equation relating the temperature scales is then:

T_{°F} = (\frac{9 °F}{5 °C} \times T_{°C}) + 32 °C

An abbreviated form of this equation that omits the measurement units is:

T_{°F} = \frac{9}{5} \times T_{°C} + 32

Rearrangement of this equation yields the form useful for converting from Fahrenheit to Celsius:

T_{°C} = \frac{5}{9} (T_{°F} - 32)

As mentioned earlier in this chapter, the SI unit of temperature is the kelvin (K). Unlike the Celsius and Fahrenheit scales, the kelvin scale is an absolute temperature scale in which 0 (zero) K corresponds to the lowest temperature that can theoretically be achieved. The early 19th-century discovery of the relationship between a gas's volume and temperature suggested that the volume of a gas would be zero at −273.15 °C. In 1848, British physicist William Thompson, who later adopted the title of Lord Kelvin, proposed an absolute temperature scale based on this concept (further treatment of this topic is provided in this text’s chapter on gases).

The freezing temperature of water on this scale is 273.15 K and its boiling temperature 373.15 K. Notice the numerical difference in these two reference temperatures is 100, the same as for the Celsius scale, and so the linear relation between these two temperature scales will exhibit a slope of $1 \frac{K}{°C}$ . Following the same approach, the equations for converting between the kelvin and Celsius temperature scales are derived to be:

T_{K} = T_{°C} + 273.15

T_{°C} = T_{K} - 273.15

The 273.15 in these equations has been determined experimentally, so it is not exact. [link] shows the relationship among the three temperature scales. Recall that we do not use the degree sign with temperatures on the kelvin scale.

A thermometer is shown for the Fahrenheit, Celsius and Kelvin scales. Under the Fahrenheit scale, the boiling point of water is 212 degrees while the freezing point of water is 32 degrees. Therefore, there are 180 Fahrenheit degrees between the boiling point of water and the freezing point of water. Under the Celsius scale, the boiling point of water is 100 degrees while the freezing point of water is 0 degrees. Therefore, there are 100 Celsius degrees between the boiling point and freezing point of water. Under the kelvin scale, the boiling point of water is 373.15 K, while the freezing point of water is 273.15 K. 233.15 K is equal to negative 40 degrees Celsius, which is also equal to negative 40 degrees Fahrenheit. — The Fahrenheit, Celsius, and kelvin temperature scales are compared.

Although the kelvin (absolute) temperature scale is the official SI temperature scale, Celsius is commonly used in many scientific contexts and is the scale of choice for nonscience contexts in almost all areas of the world. Very few countries (the U.S. and its territories, the Bahamas, Belize, Cayman Islands, and Palau) still use Fahrenheit for weather, medicine, and cooking.

Conversion from celsius

Normal body temperature has been commonly accepted as 37.0 °C (although it varies depending on time of day and method of measurement, as well as among individuals). What is this temperature on the kelvin scale and on the Fahrenheit scale?

Solution

K = °C + 273.15 = 37.0 + 273.2 = 310.2 K

°F = \frac{9}{5} °C + 32.0 = (\frac{9}{5} \times 37.0) + 32.0 = 66.6 + 32.0 = 98.6 °F

Check your learning

Convert 80.92 °C to K and °F.

Answer:

354.07 K, 177.7 °F

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Conversion from fahrenheit

Baking a ready-made pizza calls for an oven temperature of 450 °F. If you are in Europe, and your oven thermometer uses the Celsius scale, what is the setting? What is the kelvin temperature?

Solution

°C = \frac{5}{9} (°F - 32) = \frac{5}{9} (450 - 32) = \frac{5}{9} \times 418 = 232 °C ⟶ set oven to 230 °C (two significant figures)

K = °C + 273.15 = 230 + 273 = 503 K ⟶ 5.0 \times 10^{2} K (two significant figures)

Check your learning

Convert 50 °F to °C and K.

Answer:

10 °C, 280 K

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Source: OpenStax, Chemistry. OpenStax CNX. May 20, 2015 Download for free at http://legacy.cnx.org/content/col11760/1.9

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