Physical Chemistry and Its Biological ApplicationsPhysical Chemistry and Its Biological Applications ... |
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Page 92
... heat and thus , when it is completely transformed into heat , always produces exactly 1 cal of heat energy . Electrical work can be converted into heat by allowing current to flow through a resistance , and mechanical work can drive a ...
... heat and thus , when it is completely transformed into heat , always produces exactly 1 cal of heat energy . Electrical work can be converted into heat by allowing current to flow through a resistance , and mechanical work can drive a ...
Page 97
... heat absorbed is equal to minus the work done , as stated in Equation ( 3-12 ) . Consequently Equations ( 3-14 ) and ( 3-15 ) also give expressions for qrey , the particular value of the heat absorbed ... HEAT CAPACITY 97 3-4 Heat Capacity.
... heat absorbed is equal to minus the work done , as stated in Equation ( 3-12 ) . Consequently Equations ( 3-14 ) and ( 3-15 ) also give expressions for qrey , the particular value of the heat absorbed ... HEAT CAPACITY 97 3-4 Heat Capacity.
Page 108
... heat capacity , at constant pres- sure , of the products over that of the reactants . The situation can also be summarized qualitatively : If it takes more energy to heat the products than it does to heat the reactants , an endo ...
... heat capacity , at constant pres- sure , of the products over that of the reactants . The situation can also be summarized qualitatively : If it takes more energy to heat the products than it does to heat the reactants , an endo ...
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absorption acid adsorbed adsorption amino amount behavior benzene Calculate carbon carboxyl cell chain charge Chem chemical chemical shift chloride cm³ coefficient complex components concentration containing corresponding curve described diagram dipole dissociation distance effect electric electrolyte electron energy change enthalpy entropy enzyme equal equation equilibrium constant example force free energy frequency function H₂O heat hydrogen atom hydrogen bonds increase interaction ionic ionization k₁ k₂ kcal kcal/mol kinetic magnetic field magnitude material measured membrane mixture molar mole fraction molecular weight molecules nuclei occurs orbital osmotic pressure oxidation oxygen particles polar potential protein proton quantum number radiation rate constant ratio reactant reaction represented resonance rotation sample shown in Figure sodium solid solubility solvent species spectrum spin structure substance sucrose surface tension temperature tion titration torr transition triplet tube vapor pressure velocity vibrational viscosity volume wavelength zero