J^3J!^ INDEX 



dome of spray, 12, 211, 392, 395 399 

 drag coefficient, 378 



Edgerton, H. E., 216, 278, 346 



Eldridge, J. E., 158, 214, 224, 417, 421 



energy, in detonation, 75, 79, 83, 94; of 

 explosive products, 79, 83, 94, 102, 

 329; of flow, 22, 272-276, 287, 359, 

 378; in shock waves, 35-38, 135 



energy flux density, 144, 233, 419, 424 



energy losses, in explosions, 145, 282- 

 285; in bubble pulses, 374-379 



enthalpy, of shock waves, 29, 44; at gas 

 sphere boundarj^ 102, 108 



entropy, at detonation fronts, 73-76; of 

 gas products, 94; at shock fronts, 39- 

 41; in shock waves, 17, 135 



equation of state, of explosion products, 

 78-85; of water, 36-45 



equations of motion, of a diaphragm, 

 414; of detonation waves, 33-36, 78- 

 85; of a free plate, 403; of noncom- 

 pressive flow, 272-273, 323-327; of 

 shock fronts, 33-36; of shock waves, 

 14-33, 133-139 



equiUbrium composition, 80-81, 85-91 



equivalent weights, 246 



Euler equation, 15 



Ewing, M., 212, 278, 280 



explosive hght sources, 213-215 



explosive properties, 67-70 



explosive ratios, 244-248 



Explosives Research Laboratory (Bruce- 

 ton), 89, 130, 157, 218 



extrapolation of peak pressures, 177 



finite amplitude waves, 23-28 



Finkelstein, R., 56 



flash charges, 213-215 



Fletcher, J. C, 181 



free plate, motion of, 403-406 



free surface, and bubble motion, 331, 



338-341, 346-351; and bubble periods, 



332-335, 341-345; and bubble pulses, 



381-382; and shock waves, 53, 64, 261- 



264 

 frequency response, of amplifiers, 199- 



203; of cables, 184-191; of gauges, 



164-169 

 Friauf, J., 80 

 Friedman, B., 319, 328-338, 343-345, 



364 

 Froudel, C, 170 

 Fye, P. M., 158, 214, 224, 227, 417, 421 



gas sphere, see bubble 



gauges, ball crusher, 147-152; Bourdon, 

 177; diaphragm, 157-159; Ililliar, 152- 

 156; Modugno, 157; momentum, 156; 

 piezo electric, 159-198 



Gauss's theorem, 324 



Gibson, R. W., 39, 40 



Ginell, R., 127 



Goranson, R. W., 419-421 



gravity, effect on bubble motion of, 287- 



305 

 Green's theorem, 287 

 Greenfield, M., 170, 190 

 ground wave, 264 



Halverson, R. W., 42, 221, 398-399 



Hartley, H. O., 295, 298 



Hartmann, G. K., 149, 156 



Herring, W. C., 46, 305, 331, 338, 375 



miliar, H. W., 110, 148 



Hilliar gauge, 152-157 



Hopkinson's rule, 158 



Hooke's law, 149 



Hudson, G. E., 227, 410, 421 



Hugoniot, H., 34 



hydrodynamic equations, 14-18, 285- 



287, 323-331 

 hydrodynamic sources, 312-323 



images, method of, 312-323 



impulse, of shock wave, 34, 112, 153, 



231-233; of bubble pulse, 368 374, 



385-391 

 incompressive, see noncompressive 

 instability of bubble motion, 270, 312, 



379 

 internal energy, see energy 



Jones, H., 28, 81-83, 91-94, 131, 274 

 Jouget, E., 71 



Kennard, E. H., 3, 297, 322, 341, 360, 



392, 397, 403, 412, 414, 421 

 Keys, D. A., 160 

 kinetic energy, see energy 

 kinetic enthalpy, 30, 114 

 kinetic wave, see afterflow 

 Kirkwood, J. G., 28, 38, 101, 114, 133, 



159, 239, 410, 415, 418-421 

 Kirkwood-Bethe tlieory, 28-33, 114-126, 



239, 242 

 Kirkwood-Brinkley theory, 133-139 

 Kistiakowsky, G. B., 26, 67, 73, 84 



LaGrange function, 327 



Lampson, C. W., 190 



Laplace equation, 31, 285-286, 306, 315 



lead azide, 67 



leakage in gauge circuits, 163, 177, 203 



Lewis, B., 80 



Lil)essart spark, 216 



line charges, 248-253 



Lippmann, C., 76 



