Working with temperature units, Calculating with temperature units -11, H p 1 ^ ' ? ? _ t 1 bhmbembbahbb m—¡1 – HP 48g Graphing Calculator User Manual

10

Working with Temperature Units

The HP 48 lets you work with temperature units the same ways you
work with other units—except you must recognize and anticipate the

difference between temperature level and temperature difference.
For example, a temperature level of 0 °C means “freezing,” but a

temperature difference of 0 °C means “no change.”

When °C or °F represents a temperature level, then the temperature
is a unit with an additive constant: 0 °C = 273.15 K, and

0 °F = 459.67 “R. But when “C or °F represents a temperature

difference, then the temperature is a unit with no additive constant:

1 “C = 1 K, and 1 °F = 1 °R.

Converting Temperature Units

Conversions between the four temperature scales (K, °C, °F, and
°R) involve additive constants as well as multiplicative factors. The
additive constants are included in a conversion when the temperature

units reflect actual temperature levels, and are ignored when the
temperature units reflect temperature differences:

■ Pure temperature units (levels).

If both unit expressions consist of a

single, unprefixed temperature unit with no exponent, the UNITS

Catalog menu or CONVERT performs an absolute temperature

scale conversion, which includes the additive constants.

B Combined temperature units (differences).

If either unit expression

includes a prefix, an exponent, or any unit other than a temperature

unit, CONVERT performs a relative temperature unit conversion,
which ignores the additive constants.

Example:

Convert

= C t o = F .

fr^fUNITS) [NXTl

25

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10-10 Unit Objects