第十四改正日本薬局方第一追補
|
|
- きみお みしま
- 5 years ago
- Views:
Transcription
1 395
2
3 d 66 dl
4
5
6
7
8
9 9
10 10
11 11 5 2
12 12 d dl
13 13
14 14
15 15
16 16
17
18 3
19 5
20 7
21 8 A AλAλ A Aλ A A W V A V W V Aλ A λ λ Aλ A AA A A W V f f A A A A A V W V f
22 9 R α β β
23 10 E x H N N
24 11 H de Micrococcus luteus E
25 12 N N N N N N N N R n
26 13 n E α E
27 14 N N x n α NN N N
28 15 α R E R
29 16 R n R ρ ρ M V ρ M V V M M ρ ρ M M V ρ M M V
30 17 V ρ ρ M V ρ M V M V M ρ ρ M M V ρ M M V κ ρ Ω ρ A l R Ω R ρ l A κ κ 1ρ 1R l A l A R
31 18 G R Ω A l C C α l A α κ ρ Ω κ κ T T κ κ R R G C C Rκ C κ G RΩ G κ G RΩ C κ κ CG κ C R
32 19 O Thr-D-Val-Pro-MeGly-MeVal N O NH 2 O O CH 3 CH Thr-D-Val-Pro-MeGly-MeVal MeGly = N - MeVal = N - R α A A H 2 N W O A O H A CO 2 NH CH 3 W 5 Al 3 (OH) 4 S
33 20 R α Q Q W W Q Q
34 21 AAAA A A AA A A A A A A Bacillus subtilis
35 22 α A A W A A W Q Q
36 23 W Q Q W α N N N N N N Q Q N N N N W Q W Q WN N W N N
37 24 N N N N N N N N N N Q Q W Q Q W α
38 25 Q Q W Q Q W α
39 26 Bacillus subtilis A A W W A A Q Q W Q Q W
40 27 Q Q WS Q Q WS N
41 28 α N N N N N A A W A A W N N
42 29 Q Q W W Q Q Q Q W Q Q W H 3 C H 3 C S N N N N Cl H f a
43 30 N N R α
44 31 t N N N N Staphylococcus aureus Q Q W Q Q W n
45 32
46 33 x
47 34 A A A W W A A A A2 W W α
48 35 A A H 3 C W O O A A OH W H O OH H O HO O CH 3 H H H NH 2 O OH OH HCl S S α arabino α N N N N N N
49 36 Q QQ QQ Q Q Q W W W Q Q W Q Q Q Q Q Q W N N Q Q W Q Q W α
50 37 β β β α β β t t α α β α α β α β A A W A A W
51 38 α Micrococcus luteus H 3 C H CH 3 N H N H H H O HO H OH H H Cl CH 3 O H H HCl S CH 3 OH S R threo α galacto d
52 39 d cis H HO H H H H N O O CH 3 H 3 C H H H 2HCl 5H 2 O HO O H H NH HO O H 3 C R R R S S R S R S H b α Klebsiella pneumoniae
53 40 p p p Q Q Q Q p p p δ δ δ α
54 41 WS AT WT AS W W A A WS AT WT AS W W A A A A AAA
55 42 Q Q WS Q Q WS δ δ α H
56 43 H H WS AT WT AS WS AT WT AS WS ST WT AS WH W W A H A A H ST H H H H Q Q WS Q H 3 C O O OH H O OH H O H O CH 3 H HO H NH 2 Q WS O CH 3 OH HCl S S α lyxo
57 44 α Q Q WS Q Q WS α
58 45 V WS V V V WS OH Cl HO O H H OH O OH O OH H H N H 3 C CH 3 NH 2 HCl S S S S S α
59 46 A A WS A A WS t E
60 47 α t Q Q W W W W A A Q Q
61 48 WS A A WS N N n α
62 49 A A WS A A WS Q Q WS Q Q WS Q Q WS Q Q WS
63 50 α α
64 51 V V WS V V WS A A WS A A WS α
65 52 Bacillus subtilis α
66 53 Q Q WS Q Q WS
67 54 Mycobacterium smegmatis Q Q W Q Q W
68 55
69 56
70 57 Q W Q Q Q W Q Q W Q Q W
71 58 H 3 C N CH 3 O S H N H 3 C * NO 2 NH HCl * N N R A A W A A W
72 59 α A A W A A W
73 60 H 2 N H O O H N H N H H S O O CH 3 CH 3 O CH 3 O O HCl S R R R N N α Q Q W Q W Q W W N N N N N N Q Q Q Q Q Q
74 61 W W QQQ QQ W QQQ W QQ W W W N N Q Q W Q Q W
75 62 H 3 C N N F O CH 3 H N O CO 2 H RS H de
76 63 A A AAA
77 64 A A W A A W δ δ α
78 65 W A W A W W A A W A W A W W A A Q Q W Q Q W
79 66 d d d dl dl
80 67 Q Q W W Q Q HO 2 C HO CO 2 H CO 2 H H 2 O
81 68 HO CO 2 H HO 2 C CO 2 H
82 69 A A AAA AAA Q Q W Q Q W n α
83 Bacillus brevis Enterococcus hirae
84 71 N N α N N Q Q Q QQ QQ N N Q Q
85 72 W Q Q W N N α
86 73 α
87 74 A A W A A W Q Q W Q Q W Q Q W Q Q W
88 75 A A W A A O 2 N H OH H H N O O Cl Cl CO 2 Na W O R R α Q Q W Q Q W Q Q W
89 76 n H H W H H W Q Q W Q Q W
90 77 Q Q W W Q Q R V W V W
91 78 α Q Q W Q Q W Q Q W W Q Q
92 79 H 3 C OH H O H O CH 3 H CH 3 CH 3 S S R S S H a mn α Q Q W Q Q W
93 80
94 H R 2 O CH3 OH H CH 3 H OHC H3C H H CH 3 O H O H H N CH 3 H H CH 3 R 1 O O H O H OH H CH3 O OH H O R 1 = -H R 1 = R 1 = R 1 = -H R 1 = R 1 = -H R 1 = R 1 = -H R 1 = -H O O CH3 H C CH 3 O C CH3 O C CH 3 O C CH3 H HO 2C R 2 = R 2 = R 2 = R 2 = R 2 = R 2 = R 2 = R 2 = R 2 = OH CO 2H H O C O C O C O C O C O C O O OH C CH3 C CH 3 R R S R R R E E R O O C α ribo β R R R R S R R R E E R O O C α ribo β R R O C CH 3 CH 3 CH 3 CH3 CH 3 CH3 CH3 CH 3 CH 3 n n
95 82 Bacillus subtilis Q Q W Q Q W
96 83 Bacillus subtilis α
97 84 Bacillus subtilis N N δ δ α NN
98 85 Q Q W Q Q W N N
99 86 δ δ δ α H H H Q Q Q Q m n H H H Q Q W Q Q W n
100 87 δ δ δ α A A W A A W
101 88 δ δ δ α Q Q W Q Q W
102 89 δ δ δ δ α A A A A A A A A
103 90 Q Q W Q Q W H 2 N N S CH 3 O N O O H N N CO 2 Na S H H S S N CO 2 Na CH 3 R R Z δ δ δ α
104 91 Q Q W Q W Q W W Q Q W Q Q W
105 92 δ δ δ α A A W A A W
106 93 δ δ δ δ α H H Q Q Q Q Q Q H Q Q H H W Q W Q W Q W Q W Q W Q W Q W Q W Q W Q W Q W Q WH W W
107 94 l d l l l d l Q Q W Q Q W E α Q Q W Q Q W n
108 95 δ δ δ α Q Q W Q Q W
109 96 n
110 97 n Q Q W Q Q W n δ δ δ
111 98 α H H H W W A A W W H W W A H A A H A H W A A H H H Q Q W Q Q W
112 99 δ δ δ α Q Q W Q Q W n
113 100 H 2 N N S CH 3 O N O H N O H H O H 3 C * O O O N H S O O CH 3 CH 3 CH 3 RS R R Z δ δ δ δ α
114 101 A A AAA Q Q Q Q W QQ QQ W δ δ δ α
115 102 Q Q W Q Q W
116 103 δ δ δ α Q Q W Q W Q W W A A AAA
117 104 Q Q W Q Q W
118 105 S S S S SSS S SSS S SSS N N
119 106 H H W W H H δ δ δ R α Bacillus subtilis
120 107 HO HO OH O OH OH R 1 OH R 2 O O O CH3 NH2 O CH 3 OH O Q Q W W Q Q CH 3 O H O H HO NH2 H A: R 1 =H, R 2 =OH HO B: R 1 =OH, R 2 =H H H β β
121 108 A A W A A W
122 109 Q Q Q Q W Q Q W Q Q W W A A A A W A A C W A A C W W C C
123 110 Q Q Q Q W Q Q W Q Q W W Bacillus subtilis Bacillus licheniformis R A A AA Micrococcus luteus
124 111 O 2 N H OH H N O Cl Cl H O O CH 3 R R R α
125 112 A A W A A W R V W V W
126 113 Q Q W W Q Q Q Q W Q Q W
127 114
128 115 H HO CH 3 H NH 2 H H HO 2 C H O O HO H H H H O OH OH H OH H O O H O CH 3 H R S R R E R E E E E R S R S β α
129 116 AAAAA A W A AA A AA W O OH H O O OH H O 3 C H H O CH 3 H H O O H NH 2 O OH S S { O R αlyxo } OH R α
130 117 Q Q W Q Q W Cl H N NO 2 Cl
131 118 Q Q W Q Q W d AA A AA AA A A
132 119 AA H 3 C O * H O O H N H N H H S CO 2 K CH 3 CH 3 S R R RS α α α α A A AA A α α α α α α α α α α α α α V V
133 120 W V V W H 3 C CH 3 H HO OH H H H 3 C CH 3 H 3 CH H H CH 3 CO 2 Na O H O CH 3 O S Z ent α β β β β α β α N CH 3 HO 2 C CO 2 H Staphylococcus aureus H b H
134 121 Q Q Q Q
135 122 Bacillus subtilis
136 123 δ δ δ α H H H Q Q H H W Q Q W H Q Q W Q Q W
137 124 m n α
138 125 Staphylococcus aureus H CO 2H O N CH3 H N S CH3 N H H N 4H2O H H O 2 S R R N N α
139 126 Staphylococcus aureus NN N N
140 127 H H H H N N
141 128 N N A A W A A W NN O O H 3 C O CH 3 H 3 C H 3 C N O H 3 C H 3 C O CO 2 H CO 2 H RS N N N N
142 129 Q Q W W Q Q
143 130 α β W MMMM MMMM W M M α M M β M M α M M β α β α α β
144 131 A A W A A W Q Q W Q Q W n
145 132 H3C H CH3 HO H CH3 CH3 H 3C HO OH O O CH 3 H H O CH3 N H H CH 3 H H CH3 H H H O O OH HO O H CH 3 CH 3 O CH 3 H H CH 3 O H HO H H OH HO CO 2H HO H H OH HO O O H OH H H H R S S R R R R R S R β xylo C O α ribo O β R ph Staphylococcus aureus H HO δ δ α
146 133 ph H H A A AA Q Q W Q Q W m n
147 134
148 135 A A W A A W α ph
149 136 o Bacillus subtilis R α ph Q Q W Q W Q W W
150 137 o Bacillus subtilis
151 138 HN O H R H H NH HN O HO H HN O HN HN H HO HN NH O H O NH HN H 2 N O O H 2 N N : R = OH O : R = H H NH H 2 SO 4 2 R R N S S S S R Z S N S S S S R Z α ph A A AAA Bacillus subtilis
152 139 R α ph Bacillus subtilis
153 140 H 2 N H H OH HO H HO H HO O H H H NH 2 H HO O H H OH H NH 2 O H H HO O H H NH 2 H 2 SO 4 O α O α R α Bacillus subtilis
154 141 R α ph R A R A R A A A A A A A A A A A A A R R R Staphylococcus epidermidis
155 142 R CH3 O R = CH3 R = H N 4 Dbu-Thr-Dbu-Dbu-Dbu-D-Leu-Leu-Dbu-Dbu-Thr H2N Dbu = Dbu = H2N H NH 2 H CO2H CO 2H NH H2SO 4 R R R α ph Escherichia coli
156 143 R R R R α ph Bacillus subtilis
157 144 R α ph Bacillus subtilis R α ph
158 145 R Staphylococcus aureus ph
159 146 Mycobacterium smegmatis
160 147 R α ph Bacillus subtilis α ph
161 148 Mycobacterium smegmatis
162 149 R R α ph A AAA A A A A A A W W Escherichia coli ph
163 150 R α Bacillus subtilis R α
164 151 Bacillus subtilis α Q Q W Q Q W
165 152 Q Q W Q Q W Q Q W Q Q W
166 153 Q Q W Q Q W Q Q W Q Q W Q Q W Q Q W
167 154 A A A A Q Q W Q Q W Q Q W Q Q W
168 155 n Q Q W W Q Q
169
170 159
171 161 R R R R Aloe ferox Aloe africana Aloe spicata Liliaceae A A W A W A
172 162 R Clematis chinensis Clematis manshurica Clematis hexapetala Ranunculaceae
173 163 R R R R R
174 164 R R R R Polygonum multiflorum Polygonaceae Pueraria lobata Leguminosae R
175 165 A A W A A W R R Gadus macrocephalus Theragra chalcogramma Gadidae Chrysanthemum morifolium Chrysanthemum indicum Compositae
176 166 R R Notopterygium incisum Notopterygium forbesii Umbelliferae
177 167 Evodia rutaecarpa Evodia officinalis Evodia bodinieri Rutaceae Arctium lappa écompositae R
178 168 Gardenia jasminoides Rubiaceae A A W A A W Zizyphus jujuba spinosa Rhamnaceae R
179 169 R R A A W A A W Magnolia salicifolia Magnolia kobus Magnolia biondii Magnolia sprengeri Magnolia denudata Magnoliaceae R
180 170 R Cassia angustifolia Cassia acutifolia Leguminosae R A A A A W W A A A A W W n
181 171 R A A A A W W A A A A W W n R
182 172 R R A A W A A W
183 173 R A A W A A W R Uncaria rhynchophylla Uncaria sinensis Uncaria macrophylla Rubiaceae
184 174 A A A W AA A W Gastrodia elata Orchidaceae R
185 175 Asparagus cochinchinensis Liliaceae R Eucommia ulmoides Eucommiaceae Fritillaria verticillata thunbergii Liliaceae R
186 176 R Eriobotrya japonica Rosaceae R
187 177 R Cannabis sativa écannabidaceae R
188 178 R Q Q W Q Q W Q Q W Q Q W R Alpinia officinarum Zingiberaceae
189 179 R R
190
191
192 183
193
194 185
195 186
196 187
197 188
198 189
199 190
200 191
201 192
202 193
203 194
204 195
205 196
206 197
207 198
208 199
209 200
210 201
211 202
212 203
213 204
214 205
215
216
217 209
218 210
219 211
220 212
221 213
222 214
223 215
224 216
225 217
226 218
227 219
228 220
229 221
230 222
231 223
232 224
233 225
234 226
235 227
236 228
237
238 231
239 232
240 233 Escherichia coli Pseudomonas aeruginosa Staphylococcus aureus Candida albicans Aspergillus niger C. albicans A. niger A. niger A. niger
241 234
242 235 N N N N
243 236
244 237 R M R R M R
245 238 N N N N
246 239 N N N N
247 240
248 241
249 242
250 243
251 244
252 245
253 246
254 247 γ
255 248
256 249
257 250
258 251 R R VT VT R V TV T
259 252
260 253
261 254
262 255
263
264 259
265
266 p p 107
267 264 p 107 p α 9 β p p p p m N n 109 t m
268 α 110 α l
269 N N
270 n 113 H N p
271 n p 116 p
272 n p l 302 l
273 N N p o
274 dl dl 120 dl 383 dl 383 dl p 120 p 120 p n
275 n n
276 µ 122 µ 122 µ m n β 834 β
277 d d dl n p 124
278 o n n
279 β m γ p 127 p d p p
280
281 dl α n
282
283 N N 135 N N N N 135 N N N 135 N N N 135 N N N N N 136 N N 136 N N
284 p 137 p m m m aa n 139 t t N 139 N p 139 N 139 N 139 N p 139 N p N N N N p p
285 p p p 139 p 139 p p p p 140 p N N n N N p N N 140 N N n 141 n 141 n 141 n 12 n 141 n N N 142 N N 142
286 283 N N
287
288 p
289
290 ~ µ~ 149 µ~ 149 µ~
291 N N op 151 pp 151 pp 151 pp
292 dl l
293 N N N N N N p dl α
294 H 156 H o o 157 p p 157 p
295 α N 157 α α α 157 p 157 α 157 p dl α p p p p α α o 159 o o p 159 p p
296 α α
297 O
298 α α γ γ 163 δ δ N N p 164 m H 13 N N 164 d cis H 164 d cis p H N 165 p
299 α p 166 p o o
300 o p n o n n 169 t tert
301 N t α α 233 α n
302 N 171 N N 172 N p p p
303 n 173 n p N α 175 N α 175 N α 175 N α p 175 p
304 d
305
306 dl 382 dl H 180 H 14 H N α O N N dl 981 l 982 l
307 N 182 N 182 N 182 N
308 N N 185 N N
309 n p p
310 n n 188
311
第十四改正日本薬局方第二追補
461 3 3 3 5 5 6 6 10 18 19 79 81 101 113 127 133 139 145 147 152 153 156 158 165 3 19 20 21 22 22 23 24 25 26 26 27 28 29 29 30 31 dl 32 dl 33 34 34 36 36 37 38 38 38 39 40 42 42 42 43 44 45 46 46 47 48
More information第十五改正日本薬局方第一追補
316 3 5 7 9 9 9 12 13 14 14 14 23 23 23 24 24 29 29 29 35 37 131 161 173 193 194 198 200 205 3 37 37 37 38 38 38 39 39 40 40 41 42 43 43 45 46 47 48 49 50 51 52 52 53 54 54 54 55 56 58 58 59 60 60 61 61
More information- 1 -
- 1 - - 1 - ... 1... 2... 4... 5... 9... 11... 14... 16... 20... 21... 22... 23... 23 - 1 - - 2 - - 3 - - 4 - - 5 - - 6 - - 7 - - 8 - - 9 - ( ) - 10 - - 11 - Pseudomonas aeruginosa Escherichia coli Staphylococcus
More informationJH15SKOK ›º/“’”¦Ł¶ ›º
1173 Mallotus japonicus Euphorbiaceae 2.03 R R 5.01 5.01 5.01 5.01 Uncaria gambir Rubiaceae 5.01 5.01 5.01 5.01 5.01 5.01 5.01 1174 Hydrangea macrophylla thunbergii Saxifragaceae 5.01 5.01 5.01 5.01 5.01
More informationAcecide_ProductsInformation2010PDF.indd
53-0115-00-4PDF 53-0115-00-4PDF INDEX 1 3 9 11 12 16 21 38 39 40 42 43 44 45 46 47 53-0115-00-4PDF 3 1 Critical Semicritical Noncritical Disinfection Sterilization 53-0115-00-4PDF 2 53-0115-00-4PDF O =
More information内科96巻3号★/NAI3‐1(第22回試験問題)
µ µ α µ µ µ µ µ µ β β α γ µ Enterococcus faecalis Escherichia coli Legionella pneumophila Pseudomonas aeruginosa Streptococcus viridans α β 正解表正解記号問題 No. 正解記号問題 No. e(4.5) 26 e 1 a(1.2) 27 a 2
More informationエコリシン点眼液/眼軟膏インタビューフォーム
2011 11 4 871319 1mL 5mg 5mg15 1g 5mg 5mg15 JAN JAN Erythromycin LactobionateJAN Colistin Sodium MethanesulfonateJAN 1970 3 31 1970 8 1 1970 7 20 TEL0120-921-839 06-6321-7056 9 17 https://www.santen.co.jp/medical/admin/a300.jsp
More information第86回日本感染症学会総会学術集会後抄録(I)
κ κ κ κ κ κ μ μ β β β γ α α β β γ α β α α α γ α β β γ μ β β μ μ α ββ β β β β β β β β β β β β β β β β β β γ β μ μ μ μμ μ μ μ μ β β μ μ μ μ μ μ μ μ μ μ μ μ μ μ β
More information_0212_68<5A66><4EBA><79D1>_<6821><4E86><FF08><30C8><30F3><30DC><306A><3057><FF09>.pdf
More information
告示/P001 告示_下版
425 3 5 5 5 6 6 7 8 10 12 13 17 18 18 31 33 161 181 197 221 222 224 228 230 231 235 3 33 33 34 35 36 37 38 39 40 41 41 42 42 43 44 45 47 63 64 64 64 64 64 65 65 66 66 67 68 71 71 71 47 48 48 48 48 49 50
More information第65回日本化学療法学会東日本支部総会 抄録
鍵 76 Clostridioides difficile C. difficile 77 γ γ Mycobacterium avium 78 79 Clostridium difficile Treponema pallidum 80 81 82 in vitro in vitro 83 鍵 Treponema pallidum 84 Chlamydia trachomatis Mycoplasma
More information研修コーナー
l l l l l l l l l l l α α β l µ l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l
More information16 2
1 16 2 3 4 5 6 7 6.02 6.10 6.02 6.02 8 6.03 6.02 6.10 6.03 6.02 9 6.03 6.03 6.10 6.09 6.03 6.02 6.02 6.10 6.09 6.03 6.03 10 2.02 2.41 Aspergillus niger Aspergillus brasiliensis Aspergillus niger Aspergillus
More informationnsg02-13/ky045059301600033210
φ φ φ φ κ κ α α μ μ α α μ χ et al Neurosci. Res. Trpv J Physiol μ μ α α α β in vivo β β β β β β β β in vitro β γ μ δ μδ δ δ α θ α θ α In Biomechanics at Micro- and Nanoscale Levels, Volume I W W v W
More informationH22応用物理化学演習1_濃度.ppt
1 2 4/12 4/19 4/27 5/10 5/17 5/24 5/31 (20 ) (20 ) (10 ) (50 ) 3 (mole fraction) X = (mol) (mol) i n 1, n 2,, n x N i X i = n i = n i n 1 + n 2 + + n x N 4 (molarity, M) 1 dm 3 ( L) (mol) (mol/l) = 1 L
More informationT1 T2 T3 T4 350 mm φ21 100 3.5 15wt% 0wt% 3.0 80 2.5 10wt% 60 2.0 5wt% 5wt% 40 1.5 1.0 10wt% 20 15wt% 0.5 0wt% 0 0.0 100 200 300 400 100 200 300 400 [μm] [μm] [%] [] = 0.9 = 0.5 = 0.1 ( =1.0) FDTD p/λ
More informationnsg04-28/ky208684356100043077
δ!!! μ μ μ γ UBE3A Ube3a Ube3a δ !!!! α α α α α α α α α α μ μ α β α β β !!!!!!!! μ! Suncus murinus μ Ω! π μ Ω in vivo! μ μ μ!!! ! in situ! in vivo δ δ !!!!!!!!!! ! in vivo Orexin-Arch Orexin-Arch !!
More informationO1-1 O1-2 O1-3 O1-4 O1-5 O1-6
O1-1 O1-2 O1-3 O1-4 O1-5 O1-6 O1-7 O1-8 O1-9 O1-10 O1-11 O1-12 O1-13 O1-14 O1-15 O1-16 O1-17 O1-18 O1-19 O1-20 O1-21 O1-22 O1-23 O1-24 O1-25 O1-26 O1-27 O1-28 O1-29 O1-30 O1-31 O1-32 O1-33 O1-34 O1-35
More information日歯雑誌(H28・8月号)別刷り/ポスターセッション とびら
α P. gingivalis P. gingivalis αsmatgf- VEGF-A α in vitro μ Porphyromonas gingivalis in vitro Porphyromonas gingivalis β β β JBiolChem. μ μ μ β Porphyromonas gingivalis in vitro μ α β α
More information1 911 9001030 9:00 A B C D E F G H I J K L M 1A0900 1B0900 1C0900 1D0900 1E0900 1F0900 1G0900 1H0900 1I0900 1J0900 1K0900 1L0900 1M0900 9:15 1A0915 1B0915 1C0915 1D0915 1E0915 1F0915 1G0915 1H0915 1I0915
More information働く女性の母性健康管理、母性保護に関する法律のあらまし
17 1 3 3 12 3 13 10 19 21 22 22 23 26 28 33 33 35 36 38 39 1 I 23 2435 36 4/2 4/3 4/30 12 13 14 15 16 (1) 1 2 3 (2) 1 (1) (2)(1) 13 3060 32 3060 38 10 17 20 12 22 22 500 20 2430m 12 100 11 300m2n 2n
More information本組よこ/根間:文11-029_P377‐408
377 378 a b c d 379 p M NH p 380 p 381 a pp b T 382 c S pp p 383 p M M 384 a M b M 385 c M d M e M 386 a M b M a M 387 b M 388 p 389 a b c 390 391 a S H p p b S p 392 a T 393 b S p c S 394 A a b c d 395
More information1. 4cm 16 cm 4cm 20cm 18 cm L λ(x)=ax [kg/m] A x 4cm A 4cm 12 cm h h Y 0 a G 0.38h a b x r(x) x y = 1 h 0.38h G b h X x r(x) 1 S(x) = πr(x) 2 a,b, h,π
. 4cm 6 cm 4cm cm 8 cm λ()=a [kg/m] A 4cm A 4cm cm h h Y a G.38h a b () y = h.38h G b h X () S() = π() a,b, h,π V = ρ M = ρv G = M h S() 3 d a,b, h 4 G = 5 h a b a b = 6 ω() s v m θ() m v () θ() ω() dθ()
More informationuntitled
Seminal paper Anhalt JP Pioneering paper Claydon MA Kishnamurthy T Enterobacter B. cereus Routine identification paper Eigner U Seng P Cherkaoui A Saureus S. Saureus* S. Vagococcus Haemophilus Mycobacterium
More information1 2
( ) ( ) ( ) 1 2 59 2 21 24 275 43 3 26 486 103 27 28 98 105 104 99 1 48 25 29 72 14 33 11-10 3 11 8 14,663 4 8 1 6.0 8 1 0.7 11-6 27 19 22 71 5 12 22 12 1,356 6 4,397 3 4 11 8 9 5 10 27 17 6 12 22 9
More informationτ τ
1 1 1.1 1.1.1 τ τ 2 1 1.1.2 1.1 1.1 µ ν M φ ν end ξ µ ν end ψ ψ = µ + ν end φ ν = 1 2 (µφ + ν end) ξ = ν (µ + ν end ) + 1 1.1 3 6.18 a b 1.2 a b 1.1.3 1.1.3.1 f R{A f } A f 1 B R{AB f 1 } COOH A OH B 1.3
More information公開情報 2016 年 1 月 ~12 月年報 院内感染対策サーベイランス集中治療室部門 3. 感染症発生率感染症発生件数の合計は 981 件であった 人工呼吸器関連肺炎の発生率が 1.5 件 / 1,000 患者 日 (499 件 ) と最も多く 次いでカテーテル関連血流感染症が 0.8 件 /
公開情報 2016 年 1 月 ~12 月年報 院内感染対策サーベイランス集中治療室部門 集中治療室(ICU) 部門におけるサーベイランスの概要と目的 本サーベイランスの目的は 集中治療室 (Intensive Care Unit : ICU) における人工呼吸器関連肺炎 尿路感染症 カテーテル関連血流感染症の発生状況 * を明らかにすることである 集計対象医療機関の各感染症発生率を 1,000 患者
More information4月号 学会特集号 122247/16)一般演題目次
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 48 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 49 60 61 62 63 64 65 66 67 68
More information2 Zn Zn + MnO 2 () 2 O 2 2 H2 O + O 2 O 2 MnO 2 2 KClO 3 2 KCl + 3 O 2 O 3 or 3 O 2 2 O 3 N 2 () NH 4 NO 2 2 O + N 2 ( ) MnO HCl Mn O + CaCl(ClO
1 [1]. Zn + 2 H + Zn 2+,. K Ca Na Mg Al Zn Fe Ni Sn Pb H Cu Hg Ag Pt Au H (H + ),,. [2] ( ) ( ) CO 2, S, SO 2, NH 3 () + () () + () FeS Fe S ( ) + ( ) ( ) + ( ) 2 NH 4 Cl + Ca(OH) 2 Ca O + 2 NH 3,.,,.,,.,.
More informationCVMに基づくNi-Al合金の
CV N-A (-' by T.Koyama ennard-jones fcc α, β, γ, δ β α γ δ = or α, β. γ, δ α β γ ( αβγ w = = k k k ( αβγ w = ( αβγ ( αβγ w = w = ( αβγ w = ( αβγ w = ( αβγ w = ( αβγ w = ( αβγ w = ( βγδ w = = k k k ( αγδ
More informationGEN01
涔 涝 ha ha a ha t a kg kg A 423 1,749 536 150 28 367 367 8.7 267 855 320 489 B 545 2,186 723 287 40 396 361 7.3 293 820 280 375 C 122 460 153 39 25 57 57 4.7 47 243 517 528 D 101 369 107 23 21 126
More information後期化学_04_酸塩基pH
2011 ( ) ph H3O + H + H3O + HCl H3O + HCl + H2O H3O + + Cl HCl H + + Cl OH OH NaOH OH NaOH Na + + OH NH3 OH NH3 + H2O NH4 + + OH 1 H + OH H + H + * 1 NH3 HCl NH4Cl NH4Cl NH3 + Cl NH3 + HCl NH4 + + Cl.
More informationTECN
WKO BIO WINDOW lyo in situ wako No.13 UG. 1998 TECN TECN l l l l l l l hhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhh lyo lyo l J.Clin. Biochem. Nutr., Mebio hhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhh
More informationヒビスコール液A カタログ
1 2 3 2002 10 Centers for Disease Control and Prevention CDC A 1. 2. 0.2% 3. 1 A 2 3 4 5 6 7 1 1 1. 2. 3. 2 1. 1 0.2% 10 Pseudomonas aeruginosa ATCC 27853 20 20 Proteus vulgaris ATCC 13315 30 20 Escherichia
More information物理化学I-第12回(13).ppt
I- 12-1 11 11.1 2Mg(s) + O 2 (g) 2MgO(s) [Mg 2+ O 2 ] Zn(s) + Cu 2+ (aq) Zn 2+ (aq) + Cu(s) - 2Mg(s) 2Mg 2+ (s) + 4e +) O 2 (g) + 4e 2O 2 (s) 2Mg(s) + O 2 (g) 2MgO(s) Zn(s) Zn 2+ (aq) + 2e +) Cu 2+ (aq)
More information@@ ;; QQ a @@@@ ;;;; QQQQ @@@@ ;;;; QQQQ a a @@@ ;;; QQQ @@@ ;;; QQQ a a a ; ; ; @ @ @ ; ; ; Q Q Q ;; ;; @@ @@ ;; ;; QQ QQ ;; @@ ;; QQ a a a a @@@ ;;; QQQ @@@ ;;; QQQ ;;; ;;; @@@ @@@ ;;; ;;; QQQ QQQ
More information温泉の化学 1
H O 1,003 516 149 124 2,237 1974 90 110 1km 2,400 ( 100 Mg 200 (98 ) 43,665 mg 38,695 mg 19,000 mg 2000 2000 Na-Ca-Cl 806 1970 1989 10 1991 4 ph 1 981 10,000 1993... (^^; (SO_4^{2-}) " " 1973-1987 1970
More information2000年度『数学展望 I』講義録
2000 I I IV I II 2000 I I IV I-IV. i ii 3.10 (http://www.math.nagoya-u.ac.jp/ kanai/) 2000 A....1 B....4 C....10 D....13 E....17 Brouwer A....21 B....26 C....33 D....39 E. Sperner...45 F....48 A....53
More information物理化学I-第11回(13).ppt
I- 11-1 10 10.5 H 3 O + (aq) + OH (aq) + Na + (aq) + Cl (aq) Na + (aq) + Cl (aq) + 2H 2 O(l) - or - [A] V A = [B] V B 22 mol dm 3 equiv dm 3 - H 2 SO 4 (aq) + 2NaOH(aq) 2Na + (aq) + SO 4 2 (aq) + 2H 2
More informationLCR e ix LC AM m k x m x x > 0 x < 0 F x > 0 x < 0 F = k x (k > 0) k x = x(t)
338 7 7.3 LCR 2.4.3 e ix LC AM 7.3.1 7.3.1.1 m k x m x x > 0 x < 0 F x > 0 x < 0 F = k x k > 0 k 5.3.1.1 x = xt 7.3 339 m 2 x t 2 = k x 2 x t 2 = ω 2 0 x ω0 = k m ω 0 1.4.4.3 2 +α 14.9.3.1 5.3.2.1 2 x
More information4 1 Ampère 4 2 Ampere 31
4. 2 2 Coulomb 2 2 2 ( ) electricity 2 30 4 1 Ampère 4 2 Ampere 31 NS 2 Fleming 4 3 B I r 4 1 0 1.257 10-2 Gm/A µ 0I B = 2πr 4 1 32 4 4 A A A A 4 4 10 9 1 2 12 13 14 4 1 16 4 1 CH 2 =CH 2 28.0313 28 2
More informationpdf 2 ウコンウヤクウワウルシエイジツエンゴサクオウギオウゴンオウセイオウバクオウレンオンジガイヨウカゴソウカシュウ ウコン Curcuma longa Linné = Curcuma longa L. テンダイウヤク Lindera strychnifolia Fernand
119-0912.pdf 1 1 2 日本薬局方収載生薬の学名表記について 日本薬局方の学名表記と分類学的に用いられる学名表記 生薬名アカメガシワアセンヤクアマチャアラビアゴムアロエアンソッコウイレイセンインチンコウインヨウカクウイキョウウイキョウ油 日本薬局方の学名表記 = 分類学的に用いられている学名表記 ( 組合わせ明記 命名者簡略標準化 ) 日本薬局方の学名表記とは異なるが分類学的に同一あるいは同一とみなされる
More information24 201170068 1 4 2 6 2.1....................... 6 2.1.1................... 6 2.1.2................... 7 2.1.3................... 8 2.2..................... 8 2.3................. 9 2.3.1........... 12
More information2006_Pr1_Plant
2 3 4 5 Figure Nº 1 6 7 8 9 : ( µmol CO2 m -2 s -1 ) bars 10 2 Nº 1- Nº 2- Nº 3- Nº 4- Nº 1 Nº 2. Nº 3 Nº 4.!!!!!!! 2 3 4 両 方 の 筋 肉 のサイズが 同 じ 両 方 の 筋 肉 のサイズが 異 なる 閉 殻 筋 を1つもつ 5 図 1 6 図 2 7 まいざいどうぶつ 埋 在
More information四変数基本対称式の解放
The second-thought of the Galois-style way to solve a quartic equation Oomori, Yasuhiro in Himeji City, Japan Jan.6, 013 Abstract v ρ (v) Step1.5 l 3 1 6. l 3 7. Step - V v - 3 8. Step1.3 - - groupe groupe
More informationn (1.6) i j=1 1 n a ij x j = b i (1.7) (1.7) (1.4) (1.5) (1.4) (1.7) u, v, w ε x, ε y, ε x, γ yz, γ zx, γ xy (1.8) ε x = u x ε y = v y ε z = w z γ yz
1 2 (a 1, a 2, a n ) (b 1, b 2, b n ) A (1.1) A = a 1 b 1 + a 2 b 2 + + a n b n (1.1) n A = a i b i (1.2) i=1 n i 1 n i=1 a i b i n i=1 A = a i b i (1.3) (1.3) (1.3) (1.1) (ummation convention) a 11 x
More information1 9 v.0.1 c (2016/10/07) Minoru Suzuki T µ 1 (7.108) f(e ) = 1 e β(e µ) 1 E 1 f(e ) (Bose-Einstein distribution function) *1 (8.1) (9.1)
1 9 v..1 c (216/1/7) Minoru Suzuki 1 1 9.1 9.1.1 T µ 1 (7.18) f(e ) = 1 e β(e µ) 1 E 1 f(e ) (Bose-Einstein distribution function) *1 (8.1) (9.1) E E µ = E f(e ) E µ (9.1) µ (9.2) µ 1 e β(e µ) 1 f(e )
More informationin situ Hex
in situ Hex Sox Sox17Sox18 Sry Sox9 Sox17 Hex Hex N Drosophila O The 5th Conference on ABC Proteins and Ion Channels From Gene to Disease The 5th Conference on ABC Proteins and Ion Channels From Gene
More information数学概論I
{a n } M >0 s.t. a n 5 M for n =1, 2,... lim n a n = α ε =1 N s.t. a n α < 1 for n > N. n > N a n 5 a n α + α < 1+ α. M := max{ a 1,..., a N, 1+ α } a n 5 M ( n) 1 α α 1+ α t a 1 a N+1 a N+2 a 2 1 a n
More informationChapter9 9 LDPC sum-product LDPC 9.1 ( ) 9.2 c 1, c 2, {0, 1, } SUM, PROD : {0, 1, } {0, 1, } SUM(c 1, c 2,, c n ) := { c1 + + c n (c n0 (1 n
9 LDPC sum-product 9.1 9.2 LDPC 9.1 ( ) 9.2 c 1, c 2, {0, 1, } SUM, PROD : {0, 1, } {0, 1, } SUM(c 1, c 2,, c n ) := { c1 + + c n (c n0 (1 n 0 n)) ( ) 0 (N(0 c) > N(1 c)) PROD(c 1, c 2,, c n ) := 1 (N(0
More information7 π L int = gψ(x)ψ(x)φ(x) + (7.4) [ ] p ψ N = n (7.5) π (π +,π 0,π ) ψ (σ, σ, σ )ψ ( A) σ τ ( L int = gψψφ g N τ ) N π * ) (7.6) π π = (π, π, π ) π ±
7 7. ( ) SU() SU() 9 ( MeV) p 98.8 π + π 0 n 99.57 9.57 97.4 497.70 δm m 0.4%.% 0.% 0.8% π 9.57 4.96 Σ + Σ 0 Σ 89.6 9.46 K + K 0 49.67 (7.) p p = αp + βn, n n = γp + δn (7.a) [ ] p ψ ψ = Uψ, U = n [ α
More information1. 2 P 2 (x, y) 2 x y (0, 0) R 2 = {(x, y) x, y R} x, y R P = (x, y) O = (0, 0) OP ( ) OP x x, y y ( ) x v = y ( ) x 2 1 v = P = (x, y) y ( x y ) 2 (x
. P (, (0, 0 R {(,, R}, R P (, O (0, 0 OP OP, v v P (, ( (, (, { R, R} v (, (, (,, z 3 w z R 3,, z R z n R n.,..., n R n n w, t w ( z z Ke Words:. A P 3 0 B P 0 a. A P b B P 3. A π/90 B a + b c π/ 3. +
More informationuntitled
NPO 2006( ) 11 14 ( ) (2006/12/3) 1 50% % - - (CO+H2) ( ) 6 44 1) --- 2) ( CO H2 ) 2 3 3 90 3 3 2 3 2004 ( ) 1 1 4 1 20% 5 ( ) ( ) 2 6 MAWERA ) MAWERA ( ) ( ) 7 6MW -- 175kW 8 ( ) 900 10 2 2 2 9 -- - 10
More information(4) P θ P 3 P O O = θ OP = a n P n OP n = a n {a n } a = θ, a n = a n (n ) {a n } θ a n = ( ) n θ P n O = a a + a 3 + ( ) n a n a a + a 3 + ( ) n a n
3 () 3,,C = a, C = a, C = b, C = θ(0 < θ < π) cos θ = a + (a) b (a) = 5a b 4a b = 5a 4a cos θ b = a 5 4 cos θ a ( b > 0) C C l = a + a + a 5 4 cos θ = a(3 + 5 4 cos θ) C a l = 3 + 5 4 cos θ < cos θ < 4
More information日本医科大学医学会雑誌第8巻第1号
Xenopus laevis in situ μ μ Xenopus laevis Xenopus laevis Xenopus laevis UGT1A1 UGT1A1 IL28B KRAS UGT1A1 UGT1A128 UGT UGT1A1 UGT1A128 UGT1A1 286 UGT1A1 UGT1A1 28 6 UGT UGT UGT1A128 UGT IL28B UGT1A1
More informationV(x) m e V 0 cos x π x π V(x) = x < π, x > π V 0 (i) x = 0 (V(x) V 0 (1 x 2 /2)) n n d 2 f dξ 2ξ d f 2 dξ + 2n f = 0 H n (ξ) (ii) H
199 1 1 199 1 1. Vx) m e V cos x π x π Vx) = x < π, x > π V i) x = Vx) V 1 x /)) n n d f dξ ξ d f dξ + n f = H n ξ) ii) H n ξ) = 1) n expξ ) dn dξ n exp ξ )) H n ξ)h m ξ) exp ξ )dξ = π n n!δ n,m x = Vx)
More information) a + b = i + 6 b c = 6i j ) a = 0 b = c = 0 ) â = i + j 0 ˆb = 4) a b = b c = j + ) cos α = cos β = 6) a ˆb = b ĉ = 0 7) a b = 6i j b c = i + 6j + 8)
4 4 ) a + b = i + 6 b c = 6i j ) a = 0 b = c = 0 ) â = i + j 0 ˆb = 4) a b = b c = j + ) cos α = cos β = 6) a ˆb = b ĉ = 0 7) a b = 6i j b c = i + 6j + 8) a b a b = 6i j 4 b c b c 9) a b = 4 a b) c = 7
More information2 2 1?? 2 1 1, 2 1, 2 1, 2, 3,... 1, 2 1, 3? , 2 2, 3? k, l m, n k, l m, n kn > ml...? 2 m, n n m
2009 IA I 22, 23, 24, 25, 26, 27 4 21 1 1 2 1! 4, 5 1? 50 1 2 1 1 2 1 4 2 2 2 1?? 2 1 1, 2 1, 2 1, 2, 3,... 1, 2 1, 3? 2 1 3 1 2 1 1, 2 2, 3? 2 1 3 2 3 2 k, l m, n k, l m, n kn > ml...? 2 m, n n m 3 2
More informationNote.tex 2008/09/19( )
1 20 9 19 2 1 5 1.1........................ 5 1.2............................. 8 2 9 2.1............................. 9 2.2.............................. 10 3 13 3.1.............................. 13 3.2..................................
More information日本化学療法学会雑誌第61巻第6号
β Moraxella catarrhalis Escherichia coli Citrobacter Klebsiella pneumoniae Enterobacter cloacae Serratia marcescens Proteus Pseudomonas aeruginosa Acinetobacter Bacteroides fragilis β Haemophilus influenzae
More informationnewmain.dvi
数論 サンプルページ この本の定価 判型などは, 以下の URL からご覧いただけます. http://www.morikita.co.jp/books/mid/008142 このサンプルページの内容は, 第 2 版 1 刷発行当時のものです. Daniel DUVERNEY: THÉORIE DES NOMBRES c Dunod, Paris, 1998, This book is published
More information4. ϵ(ν, T ) = c 4 u(ν, T ) ϵ(ν, T ) T ν π4 Planck dx = 0 e x 1 15 U(T ) x 3 U(T ) = σt 4 Stefan-Boltzmann σ 2π5 k 4 15c 2 h 3 = W m 2 K 4 5.
A 1. Boltzmann Planck u(ν, T )dν = 8πh ν 3 c 3 kt 1 dν h 6.63 10 34 J s Planck k 1.38 10 23 J K 1 Boltzmann u(ν, T ) T ν e hν c = 3 10 8 m s 1 2. Planck λ = c/ν Rayleigh-Jeans u(ν, T )dν = 8πν2 kt dν c
More informationMicrosoft Word - 目次注意事項2.doc
I II 2009 1. 2. 12 50 3. 1. 2. 3 ( 0.1g, 0.01g, 0.001g ) 3. 4. 1. 2. ()A4 3. 000005 19 5 11 () 19 5 15 () EDTA " # $ 1000 500 =... mol/l Web 1) p.159 2) 1987pp.14-15 3) 1989pp.58-60 4) http://www.chem.zenkyo.h.kyoto-u.ac.jp/operation/
More informationII III II 1 III ( ) [2] [3] [1] 1 1:
2015 4 16 1. II III II 1 III () [2] [3] 2013 11 18 [1] 1 1: [5] [6] () [7] [1] [1] 1998 4 2008 8 2014 8 6 [1] [1] 2 3 4 5 2. 2.1. t Dt L DF t A t (2.1) A t = Dt L + Dt F (2.1) 3 2 1 2008 9 2008 8 2008
More information反D中間子と核子のエキゾチックな 束縛状態と散乱状態の解析
.... D 1 in collaboration with 1, 2, 1 RCNP 1, KEK 2 . Exotic hadron qqq q q Θ + Λ(1405) etc. uudd s? KN quasi-bound state? . D(B)-N bound state { { D D0 ( cu) B = D ( cd), B = + ( bu) B 0 ( bd) D(B)-N
More informationO x y z O ( O ) O (O ) 3 x y z O O x v t = t = 0 ( 1 ) O t = 0 c t r = ct P (x, y, z) r 2 = x 2 + y 2 + z 2 (t, x, y, z) (ct) 2 x 2 y 2 z 2 = 0
9 O y O ( O ) O (O ) 3 y O O v t = t = 0 ( ) O t = 0 t r = t P (, y, ) r = + y + (t,, y, ) (t) y = 0 () ( )O O t (t ) y = 0 () (t) y = (t ) y = 0 (3) O O v O O v O O O y y O O v P(, y,, t) t (, y,, t )
More informationN-03.indd
111-24514035-N-03 21300AMY00325000 20099 1 BD BBLCRYSTAL GP BD BBLCRYSTAL GP g/ 4-A 7--4-0.175 2-A -D- 4---D- 1.692 1-A L--7--4-1.7775 4-B L--7--4-2.182 2-B -D- 4---D- 1.6915 1-B L--7--4-1.4315 4-C L--7--4-2.3815
More informationuntitled
V. 8 9 9 8.. SI 5 6 7 8 9. - - SI 6 6 6 6 6 6 6 SI -- l -- 6 -- -- 6 6 u 6cod5 6 h5 -oo ch 79 79 85 875 99 79 58 886 9 89 9 959 966 - - NM /6 Nucl Ml SI NM/6/685 85co /./ /h / /6/.6 / /.6 /h o NM o.85
More information1BD BBLCRYSTAL RGP Aerococcus viridans Arcanobacterium pyogenes Bacillus cereus Bacillus licheniformis Bacillus megaterium Bacillus pumilus Bacillus s
111-245150-N-03 21400AMY00151000 20099 1 BD BBLCRYSTAL RGP BD BBLCRYSTAL RGP 4-A 2-A 1-A 4-B 2-B 1-B 4-C 2-C 1-C 4-D 2-D 1-D 4-E 2-E 1-E 4-F 2-F 1-F 4-G 2-G 1-G 4-H 2-H 1-H 4-I 2-I 1-I 4-J 2-J 1-J -D-
More informationx V x x V x, x V x = x + = x +(x+x )=(x +x)+x = +x = x x = x x = x =x =(+)x =x +x = x +x x = x ( )x = x =x =(+( ))x =x +( )x = x +( )x ( )x = x x x R
V (I) () (4) (II) () (4) V K vector space V vector K scalor K C K R (I) x, y V x + y V () (x + y)+z = x +(y + z) (2) x + y = y + x (3) V x V x + = x (4) x V x + x = x V x x (II) x V, α K αx V () (α + β)x
More informationp.1127 Chapter 22 Amino Acids, Peptides, and Proteins p.1128 p.1128 Amino acid Peptide Amino acid p.1132 p.1128 p.1129 p.1129 p.1129 p.1130 p.1130 p.1130 p.1130 p.1130 p.1130 p.1130 p.1130 p.1130 p.1130
More informationI A A441 : April 21, 2014 Version : Kawahira, Tomoki TA (Kondo, Hirotaka ) Google
I4 - : April, 4 Version :. Kwhir, Tomoki TA (Kondo, Hirotk) Google http://www.mth.ngoy-u.c.jp/~kwhir/courses/4s-biseki.html pdf 4 4 4 4 8 e 5 5 9 etc. 5 6 6 6 9 n etc. 6 6 6 3 6 3 7 7 etc 7 4 7 7 8 5 59
More informationF = 0 F α, β F = t 2 + at + b (t α)(t β) = t 2 (α + β)t + αβ G : α + β = a, αβ = b F = 0 F (t) = 0 t α, β G t F = 0 α, β G. α β a b α β α β a b (α β)
19 7 12 1 t F := t 2 + at + b D := a 2 4b F = 0 a, b 1.1 F = 0 α, β α β a, b /stlasadisc.tex, cusp.tex, toileta.eps, toiletb.eps, fromatob.tex 1 F = 0 F α, β F = t 2 + at + b (t α)(t β) = t 2 (α + β)t
More information第4次酸性雨全国調査報告書(平成16年度) -(Ⅱ)付表編-
1.12.24 P. 5.4.3.1 NO NOP. 5.4.3.2P. 5.4.3.3 P. 5.4.3.4 P. 2.18 2.19 P. 2.20 P. 2.21 P. P. 5.5.2.11 SOA P. 5.5.2.12 NO B A B 1.1 16 mm FRS Vol. 31 42006 1.2 ph 16 FRS ms/m FRS 1.3 16 Vol. 31 42006 μmol/l
More information20 4 20 i 1 1 1.1............................ 1 1.2............................ 4 2 11 2.1................... 11 2.2......................... 11 2.3....................... 19 3 25 3.1.............................
More information(Compton Scattering) Beaming 1 exp [i (k x ωt)] k λ k = 2π/λ ω = 2πν k = ω/c k x ωt ( ω ) k α c, k k x ωt η αβ k α x β diag( + ++) x β = (ct, x) O O x
Compton Scattering Beaming exp [i k x ωt] k λ k π/λ ω πν k ω/c k x ωt ω k α c, k k x ωt η αβ k α x β diag + ++ x β ct, x O O x O O v k α k α β, γ k γ k βk, k γ k + βk k γ k k, k γ k + βk 3 k k 4 k 3 k
More informationy = x x R = 0. 9, R = σ $ = y x w = x y x x w = x y α ε = + β + x x x y α ε = + β + γ x + x x x x' = / x y' = y/ x y' =
y x = α + β + ε =,, ε V( ε) = E( ε ) = σ α $ $ β w ( 0) σ = w σ σ y α x ε = + β + w w w w ε / w ( w y x α β ) = α$ $ W = yw βwxw $β = W ( W) ( W)( W) w x x w x x y y = = x W y W x y x y xw = y W = w w
More information転位の応力場について
y.koyama f ( F ( F( f( xp( i d f( F( xp( i ( π xp( i d δ ( F( δ ( f( δ ( xp( i f ( δ ( F( f ( xp( i d xp( i d F( f( xp( i d ' F( xp( i xp( i ' ' d ' F( xp{ i( } d ' ' ' d ' ' F( ' xp{ i( } d ' ' ' F( '
More informationB
B YES NO 5 7 6 1 4 3 2 BB BB BB AA AA BB 510J B B A 510J B A A A A A A 510J B A 510J B A A A A A 510J M = σ Z Z = M σ AAA π T T = a ZP ZP = a AAA π B M + M 2 +T 2 M T Me = = 1 + 1 + 2 2 M σ Te = M 2 +T
More informationI II III IV V
I II III IV V N/m 2 640 980 50 200 290 440 2m 50 4m 100 100 150 200 290 390 590 150 340 4m 6m 8m 100 170 250 µ = E FRVβ β N/mm 2 N/mm 2 1.1 F c t.1 3 1 1.1 1.1 2 2 2 2 F F b F s F c F t F b F s 3 3 3
More informationuntitled
PGF 17 6 1 11 1 12 1 2 21 2 22 2 23 3 1 3 1 3 2 3 3 3 4 3 5 4 6 4 2 4 1 4 2 4 3 4 4 4 5 5 3 5 1 5 2 5 5 5 5 4 5 1 5 2 5 3 6 5 6 1 6 2 6 6 6 24 7 1 7 1 7 2 7 3 7 4 8 2 8 1 8 2 8 3 9 4 9 5 9 6 9 3 9 1 9
More information