研究シリーズ 第34号
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- ひろき あきます
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5 R S. E. D.W RM EM (1.37) (39.85) RM EM (1.98) (65.17) RM EM (.40) (55.77) RM EM (3.95) (55.97) RM EM (.8) (44.40) RM EM (0.3) (33.6) RM EM (1.00) (30.48) RM EM (1.78) (39.01) RM EM (4.04) (43.59) RM EM (3.99) (5.90) 1. RM EM R S. E. D.W. 99
6 RM EM EM
7 E 4 1 E = E 1 + r 1 C 1 δ 1 E 1 k C 4 C = k E E = E0 (1 + rj k j δ j ) j= 0 E l E = l E + r k δ n n 0 j j= 0 Y Y 4 5 Y = E C = E 1 k ) j ( 4 4 j= j j j n j= 0 j= l Y = l E + r k δ + l (1 k ) n n α 4 7 l n Y = { l ne0 ( α + )} + { α r λ + β ( 1+ α )} 1 { β r + μ + β (1 + α )} α C0 = l ne0 ( α + ) C = α r λ + β (1 + α) C 1 1 = { β r + μ + β (1 + α )} 101 j
8 l n RM = c0 + c1 + c c 0 c 1 c R S.E (33.95) (11.0) ( 10.08) (46.0) (14.10) ( 1.56) (39.85) (10.48) ( 9.41) (44.35) (11.17) ( 9.79) (39.41) (10.33) ( 9.50) (70.1) (14.94) ( 13.31) (80.06) (15.76) ( 14.6) (89.70) (17.74) ( 16.73) (64.85) (1.66) ( 1.1) (74.9) (13.34) ( 1.88) (66.19) (10.39) ( 10.10) (58.81) (9.3) ( 9.07) (6.06) (10.) ( 9.94) (57.08) (8.99) ( 8.63) 1. RM RH. R S. E. 10
9 l n RH = c0 + c1 + c c 0 c 1 c R S.E (35.84) (1.33) ( 11.50) (51.57) (16.5) ( 14.96) (36.44) (10.13) ( 9.33) (41.58) (11.51) ( 10.43) (33.43) (9.56) ( 8.91) (79.84) (17.43) ( 15.99) (60.70) (13.17) ( 1.58) (75.19) (16.98) ( 16.35) (56.56) (1.37) ( 1.17) (54.08) (10.73) ( 10.57) (53.80) (9.40) ( 9.38) (46.50) (7.93) ( 7.88) (56.17) (10.01) ( 9.86) (50.6) (8.61) ( 8.33) 6 103
10 l n EM = d 0 + d1 + d d 0 d 1 d R S.E (8.06) (8.9) ( 6.13) (30.50) (7.93) ( 6.01) (36.70) (8.87) ( 6.68) (4.47) (9.53) ( 7.14) (45.78) (10.05) ( 7.59) (5.) (10.48) ( 8.08) (5.43) (9.61) ( 9.45) (66.89) (11.49) ( 9.16) (73.99) (11.8) ( 9.51) (86.66) (13.0) ( 10.68) (97.74) (14.48) ( 11.88) (116.78) (16.4) ( 13.79) (89.68) (11.33) ( 9.63) (86.94) (10.96) ( 9.43) 1. EM EB. R S. E. 104
11 l n EB = d 0 + d1 + d d 0 d 1 d R S.E (3.98) (8.61) ( 6.51) (38.15) (9.9) ( 7.00) (40.63) (9.66) ( 7.33) (44.55) (9.79) ( 7.60) (45.13) (9.10) ( 7.09) (57.05) (10.73) ( 8.58) (59.45) (10.54) ( 8.53) (69.09) (11.59) ( 9.44) (81.5) (13.18) ( 10.81) (90.79) (13.89) ( 11.8) (76.4) (10.50) ( 8.99) (74.93) (10.4) ( 8.89) 105
12 l n Y = c0 + c1 + c 4 4 c 1 c c 1 c c 1 c 40 4 = = 6 106
13 c1 < d1 c d 3 10% 5% 5%
14
15 38 4% 51 6% % 51 3%
16 110
17
18 11
19 UR URW URO 4 9 URW URO = ( UR 1.0) + ( UR 1.0) URW URO URW ' 1 URO' % URW URW ' URW ' URW URO' 113
20
21 % l
22 %
23
24
25 1 119
26 AP
27 R D.W. 4 URO = AP AO (8.19) ( 6.) (0.9) 5 9 URO = AP AO (11.1) ( 8.15) (1.90) URO = AP (8.10) ( 6.1) URO = AP AO (6.13) ( 4.65) (1.54) URO = AP AO (11.44) ( 8.74) (1.86) URO = AP AO SG (4.58) (.60) (3.63) ( 0.88) URO = AP AO SG (4.7) ( 1.13) (.0) ( 1.7) URO = AP AO SG (6.11) (.1) (4.4) ( 1.67) URO = AP (17.01) ( 9.84) 65 URO = AP (3.48) ( 5.45) 1. URO = AP AO = SG 4 =4. R D.W
28 4 SG 10 AO AO =9 =1 =14 =
29 RW URW 1 EVE 4 10 RW = EVE URW
30 14
31 RW EVE 1 URW 1 1 EVE EV 4 10 ' RW = EV URW' ' 4 11 drw d 4 11 ' drw d 14 deve durw = + d d dev durw ' = + d d RW EV drw > d dev d 4 11 ' durw ' 4 13 > 0 d URW URW ' URW ' 15
32 1 RO 1 EOE 1 URO 4 14 RO = EOE URO 4 15 dro d = deoe d + duro d 1 EOE 15 1 RWH HW 4 10 (1) RW = RWH HW URW 1 WW () RW = WW HW URW'' (3) drw dww dhw durw '' = d d d d dww / d dev / d 4 11 ' 3 durw ' durw '' (4) dhw = d d d (5) dhw < 0 d durw ' durw '' (6) < d d 16
33 EO EOE 4 14 ' 4 15 ' RO dro d = EO URO' = deo d + duro' d 4 10 EO RO dro < d deo d 17
34 18
35 4 15 ' duro' 4 17 < 0 d = RRW = RW / RW RRO = RO / RO REV = EV / EV REO = EO / EO49 4 RURW ' = URW ' / URW ' RURO' = URO' /URO'
36 4 10 ' RW / EV RURW ' = = RRW / RW49 / EV49 REV 4 15 ' = RO / EO = RRO RURO' / RO49 / EO49 REO RRW REV RRO REO RURW RURO RURW ' RURO' 1 1 UR URW URO 4 6 UR = URW + URO URW49 URO ' URW URO = ( UR = ( UR 1.0) RURW ' 1.0) RURW ' RURW ' URW49 URW + RURO' URO 49 RURO' URO49 URW + RURO' URO RURW ' RURO' 4 10 p URO 49 UR 49 URW
37 % % 1%
38 1 13
39 133
40 134
41
42
43 137
44 % % 138
45
46 46 140
47
48 14
49 % 9 143
50 144
51 145
52 ,
53 A B C D E 30 10,45 9,873 9, ,619 10, , , ,4 11, ,687 13,01 1, , ,94 13,803 1, ,115 1, ,945 13, ,46 16,43 15,31 15,59 14, , ,911 15, ,4 18,040 16, ,0 16, ,795 19,514 18,038 18, ,697 18,838 18, ,990 17, ,741 17, ,886 0,709 18, ,41 1,74 0,855 19, , A 1. B 147
54 A B 1 148
55
56
57 % , ,
58 a b R S.E. D.W (.5) ( 0.85) ( 5.57) (9.73) ( 4.41) (11.01) ( 4.14) (.1) ( 5.5) (18.0) ( 1.81) (17.39) ( 9.09) (15.7) ( 17.0) (3.31) 1. HN = a + b PD HN. R S. E. D.W. 15
59 a b R S.E. D.W (5.16) ( 3.58) ( 3.50) (7.66) (.07) (4.33) (.0) (6.37) (.95) (6.4) (1.44) (1.18) (.3) (16.05) (.8) (0.33) ( 0.83) (9.7) ( 4.4) (6.77) ( 3.35) (9.38) ( 9.87) (15.7) ( 5.49) (1.34) ( 8.1) (16.10) PD 153
60
61 R S. E. D.W. 5 9 HN = PD AP ( 11.9) (3.86) (8.05) HN = PD 0.5 AO ( 1.13) (.50) (1.01) HN = PD AO ( 0.99) (4.13) (.1) HN = PD (1.44) (1.18) HN = PD (.3) (16.05) HN = PD ( 0.83) (9.7) HN = PD 10.4 AP AO (.51) (.67) (1.0) (.03) HN = PD 7.40 AP ( 7.36) (3.86) (1.03) 65 HN = PD ( 5.49) (1.34) 1. HN PD AP AO 1 1. R S. E. D.W
62 p
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HN- 95 HN- 93 HN- 90 HN- 87 HN- 85 HN- 82 HN- 80 HN- 77 HN- 75 HN- 72 HN- 70 HN- 67 HN- 65 HN- 60 HN- 55 HN- 50 HN- 45 HN- 40 HN- 35 HN- 30 HN- 25 HN- 20 HN- 15 HN- 10 H02-80H H02-80L H02-70T H02-60H H05-60F
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202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 DS =+α log (Spread )+ β DSRate +γlend +δ DEx DS t Spread t 1 DSRate t Lend t DEx DS DEx Spread DS
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88 th Annual Meeting of the Zoological Society of Japan Abstracts 88 th Annual Meeting of the Zoological Society of Japan Abstracts 88 th Annual Meeting of the Zoological Society of Japan Abstracts 88
88 th Annual Meeting of the Zoological Society of Japan Abstracts 88 th Annual Meeting of the Zoological Society of Japan Abstracts 88 th Annual Meeting of the Zoological Society of Japan Abstracts 88
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88 th Annual Meeting of the Zoological Society of Japan Abstracts 88 th Annual Meeting of the Zoological Society of Japan Abstracts 88 th Annual Meeting of the Zoological Society of Japan Abstracts 88
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. ev=,604k m 3 Debye ɛ 0 kt e λ D = n e n e Ze 4 ln Λ ν ei = 5.6π / ɛ 0 m/ e kt e /3 ν ei v e H + +e H ev Saha x x = 3/ πme kt g i g e n
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2005 1 1991 1996 5 i 1 12 *1 *2 (1991) (1992) (2002) (1991) (1992) (2002) 13 (1991) (1992) (2002) *1 (2003) *2 (1997) 1 2 13 *3 *4 200 1 14 2 250m :64.3km 457mm :76.4km 200 1 548mm 16 9 12 589 13 8 50m
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s s U s L e A = P A l l + dl dε = dl l l
P (ε) A o B s= P A s B o Y l o s Y l e = l l 0.% o 0. s e s B 1 s (e) s Y s s U s L e A = P A l l + dl dε = dl l l ε = dε = l dl o + l lo l = log l o + l =log(1+ e) l o Β F Α E YA C Ο D ε YF B YA A YA
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94 A O D 1 A 1 A A 1 AO 1 95 A OA 1 a r A A 1 r A R 1 A R 1 A R 1 a a A OA R 1 96 F AO 1 A O 1 A 1 A O 1 A 1 O A 1 97 b O AO 1 O AO 1 A 1 A OA 1 AO 1 AA 1 98 A AO 1 A AO 1 b b 1 b b B B A 1 Q 1 rr 1 99
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linearal1.dvi
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V(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)
21 2 26 i 1 1 1.1............................ 1 1.2............................ 3 2 9 2.1................... 9 2.2.......... 9 2.3................... 11 2.4....................... 12 3 15 3.1..........
α β *2 α α β β α = α 1 β = 1 β 2.2 α 0 β *3 2.3 * *2 *3 *4 (µ A ) (µ P ) (µ A > µ P ) 10 (µ A = µ P + 10) 15 (µ A = µ P +
Armitage 1 1.1 2 t *1 α β 1.2 µ x µ 2 2 2 α β 2.1 1 α β α ( ) β *1 t t 1 α β *2 α α β β α = α 1 β = 1 β 2.2 α 0 β 1 0 0 1 1 5 2.5 *3 2.3 *4 3 3.1 1 1 1 *2 *3 *4 (µ A ) (µ P ) (µ A > µ P ) 10 (µ A = µ P
2
9 1 2 3 4,000 3,000 2,000 2,567 20.2 1,160 2,924 23.0 1,407 26.0 3,395 3,612 26.8 29.1 1,879 1,646 30.3 3,658 2,179 30 25 20 1,000 1,407 2005 1,517 1,749 1,733 2010 2015 2020 1,479 2025 65 74 75 25 4 8084
SET 5V RESET 1 1-1 SET SET SET SET SET SET 1-2 SET 1-3 SET SET 5V RESE SET AP MODE RT 5V 1-4 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 9 10 11 1 2 3 4 5 1 2 3 4 5 6 1 2 3 4 5
I ( ) 2019
I ( ) 2019 i 1 I,, III,, 1,,,, III,,,, (1 ) (,,, ), :...,, : NHK... NHK, (YouTube ),!!, manaba http://pen.envr.tsukuba.ac.jp/lec/physics/,, Richard Feynman Lectures on Physics Addison-Wesley,,,, x χ,
(1.2) T D = 0 T = D = 30 kn 1.2 (1.4) 2F W = 0 F = W/2 = 300 kn/2 = 150 kn 1.3 (1.9) R = W 1 + W 2 = = 1100 N. (1.9) W 2 b W 1 a = 0
1 1 1.1 1.) T D = T = D = kn 1. 1.4) F W = F = W/ = kn/ = 15 kn 1. 1.9) R = W 1 + W = 6 + 5 = 11 N. 1.9) W b W 1 a = a = W /W 1 )b = 5/6) = 5 cm 1.4 AB AC P 1, P x, y x, y y x 1.4.) P sin 6 + P 1 sin 45
2 1 1 α = a + bi(a, b R) α (conjugate) α = a bi α (absolute value) α = a 2 + b 2 α (norm) N(α) = a 2 + b 2 = αα = α 2 α (spure) (trace) 1 1. a R aα =
1 1 α = a + bi(a, b R) α (conjugate) α = a bi α (absolute value) α = a + b α (norm) N(α) = a + b = αα = α α (spure) (trace) 1 1. a R aα = aα. α = α 3. α + β = α + β 4. αβ = αβ 5. β 0 6. α = α ( ) α = α
h4_1_et
1 RY RO RM RG RR RW RD LN LM LB LC LD MW MG MB CW SB VR BB EB WR LR MR BR DR PM SM MC CB BO 2 3 RY RO RR RW RD RM RG LN LM LB LC LD MW MG MB 4 CW SB VR BB EB 5 PI PY PP PG PB 6 WR LR MR BR DR 7 SM MC CB
Holton semigeostrophic semigeostrophic,.., Φ(x, y, z, t) = (p p 0 )/ρ 0, Θ = θ θ 0,,., p 0 (z), θ 0 (z).,,,, Du Dt fv + Φ x Dv Φ + fu +
Holton 9.2.2 semigeostrophic 1 9.2.2 semigeostrophic,.., Φ(x, y, z, t) = (p p 0 )/ρ 0, Θ = θ θ 0,,., p 0 (z), θ 0 (z).,,,, Du Dt fv + Φ x Dv Φ + fu + Dt DΘ Dt + w dθ 0 dz = 0, (9.2) = 0, (9.3) = 0, (9.4)
5 5.1 E 1, E 2 N 1, N 2 E tot N tot E tot = E 1 + E 2, N tot = N 1 + N 2 S 1 (E 1, N 1 ), S 2 (E 2, N 2 ) E 1, E 2 S tot = S 1 + S 2 2 S 1 E 1 = S 2 E
5 5.1 E 1, E 2 N 1, N 2 E tot N tot E tot = E 1 + E 2, N tot = N 1 + N 2 S 1 (E 1, N 1 ), S 2 (E 2, N 2 ) E 1, E 2 S tot = S 1 + S 2 2 S 1 E 1 = S 2 E 2, S 1 N 1 = S 2 N 2 2 (chemical potential) µ S N
x 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
研修コーナー
l l l l l l l Department of Obstetrics and Gynecology, Fukui Medical University, Fukui l l l l l l µ l β β l α l µ µ l l l l Department of Obstetrics and Gynecology, Gifu University School of Medicine,
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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
1 (Berry,1975) 2-6 p (S πr 2 )p πr 2 p 2πRγ p p = 2γ R (2.5).1-1 : : : : ( ).2 α, β α, β () X S = X X α X β (.1) 1 2
2005 9/8-11 2 2.2 ( 2-5) γ ( ) γ cos θ 2πr πρhr 2 g h = 2γ cos θ ρgr (2.1) γ = ρgrh (2.2) 2 cos θ θ cos θ = 1 (2.2) γ = 1 ρgrh (2.) 2 2. p p ρgh p ( ) p p = p ρgh (2.) h p p = 2γ r 1 1 (Berry,1975) 2-6
2.2 h h l L h L = l cot h (1) (1) L l L l l = L tan h (2) (2) L l 2 l 3 h 2.3 a h a h (a, h)
1 16 10 5 1 2 2.1 a a a 1 1 1 2.2 h h l L h L = l cot h (1) (1) L l L l l = L tan h (2) (2) L l 2 l 3 h 2.3 a h a h (a, h) 4 2 3 4 2 5 2.4 x y (x,y) l a x = l cot h cos a, (3) y = l cot h sin a (4) h a
Sgr.A 2 saida@daido-it.a.jp Sgr.A 1 3 1.1 2............................................. 3 1.2.............................. 4 2 1 6 2.1................................. 6 2.2...................................