Direct Energy, 2018a

More documents

Recommendations

Info

8 THERMOELECTRICS 199 Figure 8.5 8.15. Consider the data in the gures of the previous problem over the range 50
Page 2 and 3:
Direct Energy Conversion by Andrea
Page 4 and 5:
CONTENTS i Contents Contents i 1 In
Page 6 and 7:
CONTENTS iii 6.3.2 Energy Levels in
Page 8 and 9:
CONTENTS v 9.6 Fuel Cells . . . . .
Page 10:
Acknowledgements I would like to th
Page 13 and 14:
2 1.2 Preview of Topics to connect
Page 15 and 16:
4 1.2 Preview of Topics Math throug
Page 17 and 18:
6 1.2 Preview of Topics Process Spo
Page 19 and 20:
8 1.2 Preview of Topics drodynamic
Page 21 and 22:
10 1.4 Measures of Power and Energy
Page 23 and 24:
12 1.5 Properties of Materials 1.5
Page 25 and 26:
14 1.5 Properties of Materials most
Page 27 and 28:
16 1.6 Electromagnetic Waves −→
Page 29 and 30:
18 1.6 Electromagnetic Waves Relate
Page 31 and 32:
20 1.6 Electromagnetic Waves A unif
Page 33 and 34:
22 1.7 Problems
Page 35 and 36:
24 2.2 Capacitors 2.2 Capacitors 2.
Page 37 and 38:
26 2.2 Capacitors 2.2.3 Permittivit
Page 39 and 40:
28 2.2 Capacitors â z â y â x No
Page 41 and 42:
30 2.2 Capacitors Figure 2.3: Natur
Page 43 and 44:
32 2.3 Piezoelectric Devices Piezoe
Page 45 and 46:
34 2.3 Piezoelectric Devices Lattic
Page 47 and 48:
36 2.3 Piezoelectric Devices Herman
Page 49 and 50:
38 2.3 Piezoelectric Devices Figure
Page 51 and 52:
40 2.3 Piezoelectric Devices c a β
Page 53 and 54:
42 2.3 Piezoelectric Devices In cer
Page 55 and 56:
44 2.3 Piezoelectric Devices made m
Page 57 and 58:
46 2.3 Piezoelectric Devices tions.
Page 59 and 60:
48 2.4 Problems 2.5. A piezoelectri
Page 61 and 62:
50 2.4 Problems 2.13. Consider a pi
Page 63 and 64:
52 2.4 Problems 2.16. The gure belo
Page 65 and 66:
54 3.2 Pyroelectricity Material Che
Page 67 and 68:
56 3.3 Electro-Optics KH 2 PO 4 [25
Page 69 and 70:
58 3.3 Electro-Optics The rst two t
Page 71 and 72:
60 3.3 Electro-Optics used as an el
Page 73 and 74:
62 3.4 Notation Quagmire Notation i
Page 75 and 76:
64 3.5 Problems 3.5 Problems 3.1. F
Page 77 and 78:
66 3.5 Problems −→ DinC/m 2 unp
Page 79 and 80:
68 4.1 Introduction Center-fed half
Page 81 and 82:
70 4.2 Electromagnetic Radiation In
Page 83 and 84:
72 4.2 Electromagnetic Radiation ar
Page 85 and 86:
74 4.3 Antenna Components and Denit
Page 87 and 88:
76 4.4 Antenna Characteristics ante
Page 89 and 90:
78 4.4 Antenna Characteristics Impe
Page 91 and 92:
80 4.4 Antenna Characteristics Azim
Page 93 and 94:
82 4.4 Antenna Characteristics 4.4.
Page 95 and 96:
84 4.4 Antenna Characteristics 5 Li
Page 97 and 98:
86 4.5 Problems Figure 4.6: A snow
Page 99 and 100:
88 4.5 Problems 4.5. Match the foll
Page 101 and 102:
90 4.5 Problems 4.8. Radiation patt
Page 103 and 104:
92 5.2 Physics of the Hall Eect The
Page 105 and 106:
94 5.2 Physics of the Hall Eect The
Page 107 and 108:
96 5.3 Magnetohydrodynamics This am
Page 109 and 110:
98 5.5 Applications of Hall Eect De
Page 111 and 112:
100 5.6 Problems 5.6 Problems 5.1.
Page 113 and 114:
102 6.2 The Wave and Particle Natur
Page 115 and 116:
104 6.3 Semiconductors and Energy L
Page 117 and 118:
Page 119 and 120:
Page 121 and 122:
Page 123 and 124:
Page 125 and 126:
Page 127 and 128:
Page 129 and 130:
Page 131 and 132:
120 6.4 Crystallography Revisited L
Page 133 and 134:
122 6.5 Pn Junctions E Indirect Sem
Page 135 and 136:
124 6.5 Pn Junctions an excess of n
Page 137 and 138:
126 6.5 Pn Junctions V x - + Energy
Page 139 and 140:
128 6.6 Solar Cells to day and loca
Page 141 and 142:
130 6.6 Solar Cells dot based mater
Page 143 and 144:
132 6.7 Photodetectors Solar Panel
Page 145:
134 6.7 Photodetectors 6.7.2 Measur
Page 148 and 149:
6 PHOTOVOLTAICS 137 6.3. The gure i
Page 150 and 151:
7 LAMPS, LEDS, AND LASERS 139 7 Lam
Page 152 and 153:
7 LAMPS, LEDS, AND LASERS 141 Photo
Page 154 and 155:
7 LAMPS, LEDS, AND LASERS 143 Absor
Page 156 and 157:
7 LAMPS, LEDS, AND LASERS 145 We ca
Page 158 and 159:
7 LAMPS, LEDS, AND LASERS 147 If we
Page 160 and 161: 7 LAMPS, LEDS, AND LASERS 149 tube
Page 162 and 163: 7 LAMPS, LEDS, AND LASERS 151 easil
Page 164 and 165: 7 LAMPS, LEDS, AND LASERS 153 Power
Page 166 and 167: 7 LAMPS, LEDS, AND LASERS 155 Two L
Page 168 and 169: 7 LAMPS, LEDS, AND LASERS 157 but n
Page 170 and 171: 7 LAMPS, LEDS, AND LASERS 159 of ec
Page 172 and 173: 7 LAMPS, LEDS, AND LASERS 161 the o
Page 174 and 175: 7 LAMPS, LEDS, AND LASERS 163 Ti:Sa
Page 176 and 177: 7 LAMPS, LEDS, AND LASERS 165 the b
Page 178 and 179: 7 LAMPS, LEDS, AND LASERS 167 Gas D
Page 180 and 181: 7 LAMPS, LEDS, AND LASERS 169 categ
Page 182 and 183: 7 LAMPS, LEDS, AND LASERS 171 7.8.
Page 184 and 185: 8 THERMOELECTRICS 173 8 Thermoelect
Page 186 and 187: 8 THERMOELECTRICS 175 Symbol Name V
Page 188 and 189: 8 THERMOELECTRICS 177 per unit volu
Page 190 and 191: 8 THERMOELECTRICS 179 kPa, and the
Page 192 and 193: 8 THERMOELECTRICS 181 Seebeck Effec
Page 194 and 195: 8 THERMOELECTRICS 183 gradient acro
Page 196 and 197: 8 THERMOELECTRICS 185 thermocouples
Page 198 and 199: 8 THERMOELECTRICS 187 The gure of m
Page 200 and 201: 8 THERMOELECTRICS 189 or mass invol
Page 202 and 203: 8 THERMOELECTRICS 191 temperatures?
Page 204 and 205: 8 THERMOELECTRICS 193 Figure 8.4: L
Page 206 and 207: 8 THERMOELECTRICS 195 8.9 Problems
Page 208 and 209: 8 THERMOELECTRICS 197 8.8. A thermo
Page 212 and 213: 9 BATTERIES AND FUEL CELLS 201 9 Ba
Page 214 and 215: 9 BATTERIES AND FUEL CELLS 203 0 En
Page 216 and 217: 9 BATTERIES AND FUEL CELLS 205 9.1,
Page 218 and 219: 9 BATTERIES AND FUEL CELLS 207 Both
Page 220 and 221: 9 BATTERIES AND FUEL CELLS 209 The
Page 222 and 223: 9 BATTERIES AND FUEL CELLS 211 9.3
Page 224 and 225: 9 BATTERIES AND FUEL CELLS 213 e
Page 226 and 227: 9 BATTERIES AND FUEL CELLS 215 e
Page 228 and 229: 9 BATTERIES AND FUEL CELLS 217 E 0
Page 230 and 231: 9 BATTERIES AND FUEL CELLS 219 The
Page 232 and 233: 9 BATTERIES AND FUEL CELLS 221 quot
Page 234 and 235: 9 BATTERIES AND FUEL CELLS 223 devi
Page 236 and 237: 9 BATTERIES AND FUEL CELLS 225 Exam
Page 238 and 239: 9 BATTERIES AND FUEL CELLS 227 Figu
Page 240 and 241: 9 BATTERIES AND FUEL CELLS 229 were
Page 242 and 243: 9 BATTERIES AND FUEL CELLS 231 syst
Page 244 and 245: 9 BATTERIES AND FUEL CELLS 233 Figu
Page 246 and 247: 9 BATTERIES AND FUEL CELLS 235 9.5.
Page 248 and 249: 10 MISCELLANEOUS ENERGY CONVERSION
Page 256 and 257: 11 CALCULUS OF VARIATIONS 245 Part
Page 258 and 259: 11 CALCULUS OF VARIATIONS 247 Many
Page 260 and 261:
11 CALCULUS OF VARIATIONS 249 11.4
Page 262 and 263:
11 CALCULUS OF VARIATIONS 251 We ha
Page 264 and 265:
11 CALCULUS OF VARIATIONS 253 The L
Page 266 and 267:
11 CALCULUS OF VARIATIONS 255 The p
Page 268 and 269:
11 CALCULUS OF VARIATIONS 257 Energ
Page 270 and 271:
11 CALCULUS OF VARIATIONS 259 The e
Page 272 and 273:
11 CALCULUS OF VARIATIONS 261 Energ
Page 274 and 275:
11 CALCULUS OF VARIATIONS 263 The a
Page 276 and 277:
11 CALCULUS OF VARIATIONS 265 The d
Page 278 and 279:
11 CALCULUS OF VARIATIONS 267 11.8.
Page 280 and 281:
12 RELATING ENERGY CONVERSION PROCE
Page 282 and 283:
Page 284 and 285:
Page 286 and 287:
Page 288 and 289:
Page 290 and 291:
Page 292 and 293:
Page 294 and 295:
Page 296 and 297:
Page 298 and 299:
Page 300 and 301:
Page 302 and 303:
13 THOMAS FERMI ANALYSIS 291 13 Tho
Page 304 and 305:
13 THOMAS FERMI ANALYSIS 293 13.2 P
Page 306 and 307:
13 THOMAS FERMI ANALYSIS 295 Symbol
Page 308 and 309:
13 THOMAS FERMI ANALYSIS 297 Electr
Page 310 and 311:
13 THOMAS FERMI ANALYSIS 299 Rememb
Page 312 and 313:
13 THOMAS FERMI ANALYSIS 301 the wa
Page 314 and 315:
13 THOMAS FERMI ANALYSIS 303 We kno
Page 316 and 317:
13 THOMAS FERMI ANALYSIS 305 E f =
Page 318 and 319:
13 THOMAS FERMI ANALYSIS 307 Eq. 13
Page 320 and 321:
13 THOMAS FERMI ANALYSIS 309 functi
Page 322 and 323:
14 LIE ANALYSIS 311 14 Lie Analysis
Page 324 and 325:
14 LIE ANALYSIS 313 independent var
Page 326 and 327:
14 LIE ANALYSIS 315 14.3 Continuous
Page 328 and 329:
14 LIE ANALYSIS 317 Figure 14.1: Th
Page 330 and 331:
14 LIE ANALYSIS 319 and y → y(1 +
Page 332 and 333:
14 LIE ANALYSIS 321 Group property
Page 334 and 335:
14 LIE ANALYSIS 323 pr (n) UF =0. (
Page 336 and 337:
14 LIE ANALYSIS 325 Eqs. 14.54, 14.
Page 338 and 339:
14 LIE ANALYSIS 327 equation must a
Page 340 and 341:
14 LIE ANALYSIS 329 The rst term is
Page 342 and 343:
14 LIE ANALYSIS 331 to nd the corre
Page 344 and 345:
14 LIE ANALYSIS 333 dG [ ] dt = ξ
Page 346 and 347:
14 LIE ANALYSIS 335 Use Eq. 14.117
Page 348 and 349:
14 LIE ANALYSIS 337 14.7 Problems 1
Page 350 and 351:
14 LIE ANALYSIS 339 14.9. In Proble
Page 352 and 353:
Appendices 341 Appendices Appendix
Page 354 and 355:
Appendices 343 Symbol Quantity Unit
Page 356 and 357:
Page 358 and 359:
Page 360 and 361:
Appendices 349 Appendix B: Abbrevia
Page 362 and 363:
Appendices 351 Appendix C: Overload
Page 364 and 365:
Appendices 353 κ describes the abi
Page 366 and 367:
REFERENCES 355 References [1] W. H.
Page 368 and 369:
REFERENCES 357 [30] Crystal systems
Page 370 and 371:
REFERENCES 359 [61] B. D. Iverson a
Page 372 and 373:
REFERENCES 361 [88] M. F. Gendre, T
Page 374 and 375:
REFERENCES 363 [115] R. Venkatasubr
Page 376 and 377:
REFERENCES 365 [137] S. G. Bratsch,
Page 378 and 379:
REFERENCES 367 [163] B. V. Brunt, T
Page 380 and 381:
REFERENCES 369 [189] L. V. Ovsianni
Page 382 and 383:
INDEX 371 Energy conservation, 9 En
Page 384 and 385:
INDEX 373 Thomas Fermi analysis, 29
show all

Direct Energy, 2018a

Create successful ePaper yourself

Delete template?

Save as template?