Heating specific heat

Students often get the terms, heat, specific heat and temperature confused. Here are the formal definitions ... 

The relationship between heat, specific heat, and temperature change is given by the equation Q = mcAT. In this equation, Q is the amount of heat absorbed or released in joules, m is the mass in grams, c is the specific heat of the substance, and AT is the... 

We find an analogous expression, in which the value of the constant in (11) is expressed in terms of the combustion heat, specific heat, and the combustion, ignition and initial temperatures, in the work of Holm [12], who constructed the thermal balance of a hemispherical flame, with the diameter of the hemisphere taken equal to the tube diameter. 

Specific Heat. Specific heat data are available over a wide temp range (Refs 6 55). The values at 0, 40 and 80° are 0.309, 0.345 and 0.374cal/g/°C, respectively (Ref 6). Rouse (Ref 56) quotes a value of 0.25cal/deg/g Lenchitz and coworkers (Ref 41) have measured it from 10 to 300°K. Some of these data (see footnote in Ref 41) are tabulated below. The specific heat at constant volume has been measured (Ref 31), and found to be ca 30% less than that at constant pressure... 

Solution Molar heat = Specific heat x Molecular weight /. Cp = cPxM and Cy CyXM... 

Self Heating Specific Heat No temp exotherms from ambient to 170° 49... 

The constant-volume and constant-pressure specific heats are identical for incompressible substances (Fig. 1-10). Therefore, for solids and liquids the subscripts on c and Cp can be dropped and both. specific heals can be represented by a single symbol, c. That is, Cp = tv = c- This result could also be deduced from the physical definitions of constant-volume and constant-pressure specific heats. Specific heats of several common gases, liquids, and solids are given in the Appendix. 

In the crystallization of hydrogenated edible oil products, the sensible heat of the liquid is removed until the temperature of the product is equal to the melting point. At the melting point, heat must be removed to allow the crystallization of the product. The quantity of heat associated with this phenomenon is called heat of crystallization. Sensible heat (specific heat) of most common hard fat products is equal to about 0.27 cal/g (0.5 Btu/lb) and the heat of crystallization is equal to 27.8 cal/g (50Bm/lb). The amount of heat that must be removed to crystallize hardened oil is 100 times the amount of heat that must be removed to lower the product temperature (39). 

Some factors that influence the rate of evaporation of a solvent include temperature, flow of air over sample, vapor pressure of the solvent, latent heat, specific heat, and molecular weight (53). Galstaun (55) in 1950 reported a thorough study of the evaporation of some hydrocarbon solvents and developed equations for evaporation rates as related to several factors including temperature drop of liquid as it evaporates. Sletmoe (56) developed equations for the evaporation of neat solvent blends. The total rate of evaporation was proposed to be equal to the sum of the rates for the individual solvent components ... 

Calorimetry gives a powerful method for the simulation of storage reactions. The main thermodynamical parameters which are needed can be provided by the calorimetric test latent heat, specific heat, reaction heat... ... 

Thermal and physical properties of the material to be heated—specific heat, latent heat, melting and boiling points, thermal conductivity, flash point, viscosity, density, and evolution of dissolved gases/vapours generated during heating ... 

Crawford found that the absolute heat (specific heat) of calx of antimony is to that of metallic antimony as 11 6 to 4 5 hence if phlogiston is added to a body a quantity of absolute heat is extricated and if phlogiston is separated an equal quantity of heat is absorbed. In the process of inflammation, the phlogiston is separated from the inflammable body, and combined with the air the air is converted into fixed and phlogisticated air, and at the same time gives off a very great proportion of its absolute heat. This appears as flame. Heat and phlogiston are by nature opposite principles. 

Amount of heat, specific heat, and temperature are such closely related properties of a substance that they are often confused. How are they related to each other How are they different, by definition One way to distinguish these three properties is by the unit used. What units might be used by a scientist for each of these properties ... 

The proportionality constant, c, is a property of a pure substance called its specific heat. Specific heat is the heat flow required to change the temperature of one gram of a substance by one degree Celsius. It measures the relative ease with which... 

Constant-pressure specific heat Specific heat at constant pressure of a mixture gas at high pressure is ... 

The quantity c is called the specific heat or specific heat capacity. (In this text, we will use the term specific heat.) Specific heat is defined as the amount of heat required to raise the temperature of one gram of a substance one degree Celsius. When the mass of that substance is equal to its molar mass, then c is called the molar heat capacity. 

Specific heat capacity characterizes the capability of a material to store heat. Specific heat capacity is given in J =m s and is defined as... 

Thermophysical properties of R-22 and CO2 are compared for the saturation temperatures of -25, -10, and 5°C in Table R-3. The evaporation pressure of CO2 is four to eight times higher than that of R-22. The saturated liquid density of CO2 is approximately 70 percent that of R-22, while the saturated vapor density of CO2 is approximately five times that of R-22. The higher density offers the opportunity to reduce heat exchanger size and weight. CO2 has better heat-transfer characteristics (higher latent heat, specific heat, and thermal conductivity) and lower viscosity than R-22. See Fig. R-4. 

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