Physical Chemistry and Its Biological ApplicationsPhysical Chemistry and Its Biological Applications ... |
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Page 25
... particles is altered . For example , if two particles bearing opposite electric charges are allowed to approach one another , they can in this process do work on the surroundings , and in the course of doing work they lose energy ...
... particles is altered . For example , if two particles bearing opposite electric charges are allowed to approach one another , they can in this process do work on the surroundings , and in the course of doing work they lose energy ...
Page 263
... particles , particles equivalent to doubly ionized helium atoms and emitted by some radio- active materials , was allowed to strike a metal foil . It was found that many of the particles passed through the foil almost undeflected , but ...
... particles , particles equivalent to doubly ionized helium atoms and emitted by some radio- active materials , was allowed to strike a metal foil . It was found that many of the particles passed through the foil almost undeflected , but ...
Page 454
... particles that can be ob- served as they are buffeted about , first in one direction , and then in another . An example is shown in Figure 12-7 . In deriving an equation describing Brownian motion , consideration is limited for ...
... particles that can be ob- served as they are buffeted about , first in one direction , and then in another . An example is shown in Figure 12-7 . In deriving an equation describing Brownian motion , consideration is limited for ...
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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