PRESSURE DEFINITIONS

Figure 2-10.—Temperature scales. A. Fahrenheit. B. Celsius. Celsius thermometer. The temperatures would be 0°C for the ice water and 212°F for the boiling water. If you place both thermometers in water containing ice, the Fahrenheit thermometer will read 32°F and the Celsius thermometer will read 0°C. Heat the water slowly. The temperature will not change until the ice in the water has completely melted (a great deal of heat is required just to melt the ice). Then both mercury columns will begin to rise. When the mercury level is at the +10° mark on the Celsius thermometer, it will be at the +50° mark on the Fahrenheit thermometer. The two columns will rise together at the same speed and, when the water finally boils, they will stand at 100°C and 212°F, respectively. The same temperature change—that is, the same amount of heat transferred to the water—has raised the temperature 100° Celsius and 180° Fahrenheit, but the actual change in heat energy is exactly the same. PRESSURE DEFINITIONS Pressure, like temperature, is one of the basic engineering measurements and one that must be frequently monitored aboard ship. As with temperature readings, pressure readings provide you with an indication of the operating condition of equipment. PRESSURE is defined as the force per unit area. The simplest pressure units are the ones that indicate how much force is applied to an area of a certain size. These units include pounds per square inch, pounds per square foot, ounces per square inch, newtons per square millimeter, and dynes per square centimeter, depending upon the system you use. You also use another kind of pressure unit that involves length. These units include inches of water (in. H₂O), inches of mercury (in.Hg), and inches of some other liquid of a known density. Actually, these units do not involve length as a fundamental dimension. Rather, length is taken as a measure of force or weight. For example, a reading of 1 in.H₂O means that the exerted pressure is able to support a column of water 1 inch high, or that a column of water in a U-tube would be displaced 1 inch by the pressure being measured. Similarly, a reading of 12 in. Hg means that the measured pressure is sufficient to support a column of mercury 12 inches high. What is really being expressed (even though it is not mentioned in the pressure unit) is that a certain quantity of material (water, mercury, and so on) of known density exerts a certain definite force upon a specified area. Pressure is still force per unit area, even if the pressure unit refers to inches of some liquid. In interpreting pressure measurements, a great deal of confusion arises because the zero point on most pressure gauges represents atmospheric pressure rather than zero absolute pressure. Thus, it is often necessary to specify the kind of pressure being measured under any given conditions. To clarify the numerous meanings of 2-15