スライド 1
Size: px
Start display at page:

Download "スライド 1"

Transcription

1 = 9.3 kcal/mol (TF) = 30.9 kcal/mol (py) G= T S = 9.3 (298 ( 41)) = 2.9 kcal/mol (TF) = 30.9 (298 ( 41)) = 18.7 kcal/mol (py) TF py Mn-Mn

2 Toleman cone angle θ

3 Electronic effect of PR 3 groups in LNi(CO) 3 Stronger donor phosphines increase the electrondensity on Ni, which passes some of this increase along to the COs by back bonding. Increase the CO-M back bonding Cone angle

4 oxidative addition and reductive elimination)

5

6 agostic hydride (Brookhart and Green, 1983) γ Η

7 First direct observation of oxidative addition of a saturated hydrocarbon C- bond Janowicz and Bergman (1982) Molecule D/ kcal (mol) C C 3 -C 3 88 C 3 -I 56 (C 4 12 K ) 2 Pt, Ir

8 R. G. Bergman 1982),()(C 6 11 ) C 4 1 C 6 12 Eq. 37) Eq. 38, 39 2 C 6 6 PMe 3 Cp*Ir(PMe 3 ) Cp*Ir(PMe 3 ) bent 1 linear 3 Cp*Ir(PMe 3 ) C 2 isolobal( ) 1 C 2 C C-C 2 - k /k D 1.38 Cp*Ir(PMe 3 ) ) 1.23 C 2 fast

9 cis Trans

10 R L M CO L M C R O Two-step mechanism (Fig. 6.1) 1) 2) k-1 >> k2 k-1 << k2 1/kobs 1/[L]

11 Fe-C Calderazzo 1977 Chiral center 5 Fe 1)R 7 inversion 2)CO 9 retention 16 ) 6 8 In nitroethane 7 (highly stereospecific) In MPA 9 (stereoselective) 13 CO Calderazzo 1977 cis a:b:c:d Me 1:2:0:1 (L=CO in acetone/tf or L= P(OC 2 ) 3 CC 3 in TF (or MPA)) CO 1:2:1:0

12 R R-M D PhC 2 -Mn) < D C 3 -Mn) PhC 2 -Mn insertion D CF 3 -Mn) D C 3 -Mn) CF 3- Mn insertion R-CO-Mn insertion C 2 F 5 COMn

13 "agostic" ( terminal R trans R + cis R ML n + C 2 R L n M L n M M C 2 R C 2 R L n C 2 R 3 C L n M L n M L n M + R R R cis or trans

14 1. 1) oxidative addition) 2) (hydrogenolysis) 3) heterolytic hydrogen cleavage) 2. (hydrogenolysis) 3. heterolytic hydrogen cleavage)

15 4. Monohydride hydrogenation catalysis 5. Dihydride hydrogenation catalysis 8 Keq 13)= 10 6 M -1

16 -L -L S= solvent Keq 13)= 10 6 M -1

17 Wilkinson (III) (I) dimer monomer Wilkinson

18 1931 Bull Chem Soc Jpn 1956 Nature Raney 1966 (II) Tetrahed,

19 Tetrahed, W. S. Knowles DIOP Tetrahed,. B. Kagan

20 Methyl (Z)-α-acetamidocinnamate (MAC) Methyl N-acetamidophenylalanate k 2 ---RDS at 25 C ( E 6 kcal mol -1 ) K 4 ---RDS at -40 C ( E 17 kcal mol -1 )

21 si Ph O re O 2 C N Ph prochiral

22

23 Face-edge conformation of of chelate phosphine ligand in in chiral phosphine-rh(i) complexes NCOC 3 COO α-acylaminocinnamic acid 2 NCOC 3 * COO N-acylphenylalanine Quadrant diagram of complex W. S. Knowles, in Fundamental Research in omogeneous Catalysis, vol 3, M. Tsutsui ed., Plenum, NY, p. 537 (1978). Quadrant diagram of Λ complex

24 Perspective views of chiral phosphine-rh(i) complexes Perspective views of chiral phosphine-rh(i) complexes W. S. Knowles, in Fundamental Research in omogeneous Catalysis, vol 3, M. Tsutsui ed., Plenum, NY, p. 537 (1978).

25

26 Monsanto process for the synthesis of L-DOPA (effective medicine for Parkinson s disease) developed by W.. Knowles.

27

28

29 3. C5-C6 C7-C8 C21-C22 Ergosterol acetate Tritium labeling β ketoalcohol Prostaglandins Birch reduction (arenes) β ketoalcohol

30 CO 2 + CO + RC C 2 RC 2 C 2 CO + RCC 3 CO / Co Co-Th atm L:B=3:1 Ruhrchemie 1938 C 7 C Rh(CO)(PPh 3 ) PPh 3 L linear branched RC 2 C 2 C 2 O RCC 3 C 2 O propionaldehyde

31 C 3 O CoI MPa, BASF 1960 Monsanto [RhI 2 (CO) 2 ] C 3 I C 3 O 2 O C 3 COO 2 O I [RhI 2 (CO) 2 ] 1 C 3 I C 3 CO I 5 [RhI 3 (C 3 CO)(CO) 2 ] 4 [RhI 3 (C 3 CO)(CO) 2 ] 3 [RhI 3 (C 3 )(CO) 2 ] 2 CO

32 (Wacker oechst [(C 2 4 )PdCl 2 ] 2 C 3 CO (1894 F. C. Phillips USA) oechst Wacker Chemie 1/2O 2 +2Cl J. Smidt CuCl 2 2CuCl (1956) 2 O [Cl - ] 0.2M 2CuCl 2 [PdCl 4 ] O C 2 C 2 O Pd(0) + 2Cl O Pd- [PdCl ( 2 O)] C 3 CO ( 2 O)Cl 2 Pd 5 C 3 C O C 2 4 +PdCl O C 3 CO + Pd +2Cl Pd + 2CuCl 2 PdCl 2 + 2CuCl 2CuCl + 2Cl + 1/2 O 2 2CuCl O C /2 O 2 C 3 CO [PdCl 4 ] 2 8 C Cl [PdCl 3 (C 2 4 )] = -243 kj mol O Cl [PdCl 2 ( 2 O)(C 2 4 )] 2 O + [PdCl 2 (C 2 C 2 O)( 2 O)] Cl ( 2 O)ClPd 4 CO C 2 Cl

33 Migratory insertion (P. Cosee, 1964) Co-catalyst MAO(methylalumoxane) ([Al(C 3 )-O] n Carbon-to-metallacycle mechanism (M. L.. Green, 1978) isotactic syndiotactic atactic

Similar documents

PowerPoint プレゼンテーション

PowerPoint プレゼンテーション 2004 3 3 2 3 4 5 6 7 8 9 10 T. Ito, A. Yamamoto, et al., J. Chem. Soc., Chem. Commun., 136 (1974) J. Chem. Soc., Dalton Trans., 1783 (1974) J. Chem. Soc., Dalton Trans., 1398 (1975) 11 T.Ito, A. Yamamoto,

More information

Activation and Control of Electron-Transfer Reactions by Noncovalent Bond

Activation and Control of Electron-Transfer Reactions by Noncovalent Bond 2 + 4e- + 4 + hν 2 2 1 2 20 J. Am. Chem. oc. Angew. Chem. Int. Ed. umber of Papers 15 10 5 0 1998 1999 2000 2001 2002 2003 Year : J. Am. Chem. oc. (Trost, B. M.; tanford University, UA) 3 π 1/2 k ET =

More information

Stereoelectronic Effect

Stereoelectronic Effect node anti bonding M ( σ* ) A A : bonding M ( σ ) A: atomic orbital M: molecular orbital node anti bonding M filled orbital of molecular 1 M bonding M vacant orbital of molecular 2 LUM LUM (lowest unoccupied

More information

日本内科学会雑誌第97巻第7号

日本内科学会雑誌第97巻第7号

More information

日本内科学会雑誌第98巻第4号

日本内科学会雑誌第98巻第4号

More information

水素移動型不斉還元触媒|関東化学株式会社

水素移動型不斉還元触媒|関東化学株式会社 99% yield, 96% ee (S/C = 1000) 89% yield, 99% ee (S/C = 300) >99% yield, 97% ee () X 78% yield, 95% ee () (S,S)-u cat X = C, 3, 2 = H, CH 3, F 67-100% yield, 92-98% ee (S/C = 100-1000) 100% yield dl:meso

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

(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

PDF

PDF 1 1 1 1-1 1 1-9 1-3 1-1 13-17 -3 6-4 6 3 3-1 35 3-37 3-3 38 4 4-1 39 4- Fe C TEM 41 4-3 C TEM 44 4-4 Fe TEM 46 4-5 5 4-6 5 5 51 6 5 1 1-1 1991 1,1 multiwall nanotube 1993 singlewall nanotube ( 1,) sp 7.4eV

More information

Ł\”ƒ-2005

Ł\”ƒ-2005

More information

第90回日本感染症学会学術講演会抄録(I)

第90回日本感染症学会学術講演会抄録(I)

More information

1) K. J. Laidler, "Reaction Kinetics", Vol. II, Pergamon Press, New York (1963) Chap. 1 ; P. G. Ashmore, "Catalysis and Inhibition of Chemical Reactio

1) K. J. Laidler, Reaction Kinetics, Vol. II, Pergamon Press, New York (1963) Chap. 1 ; P. G. Ashmore, Catalysis and Inhibition of Chemical Reactio 1) K. J. Laidler, "Reaction Kinetics", Vol. II, Pergamon Press, New York (1963) Chap. 1 ; P. G. Ashmore, "Catalysis and Inhibition of Chemical Reactions", Butterworths, London (1963) Chap. 7, p. 185. 2)

More information

日本内科学会雑誌第102巻第4号

日本内科学会雑誌第102巻第4号

More information

温泉の化学 1

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 information

[Ver. 0.2] 1 2 3 4 5 6 7 1 1.1 1.2 1.3 1.4 1.5 1 1.1 1 1.2 1. (elasticity) 2. (plasticity) 3. (strength) 4. 5. (toughness) 6. 1 1.2 1. (elasticity) } 1 1.2 2. (plasticity), 1 1.2 3. (strength) a < b F

More information

77 http//www.pref.nara.jp/rinsei/bio/biotop.htm 1... 1 2... 2 3... 3 4... 4 5 1... 5 6 2... 6 7 3... 7 8 4... 8 9... 9 1... 1 11... 12 12... 14 13... 16 14... 18 15... 2 16... 22 17 1... 24 18 2... 26

More information

O1-1 O1-2 O1-3 O1-4 O1-5 O1-6

O1-1 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

1 911 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

Nuclear Magnetic Resonance 1 H NMR spectrum PPM

Nuclear Magnetic Resonance 1 H NMR spectrum PPM Nuclear Magnetic Resonance 1 NMR spectrum PPM PPM X: X X: 1.5 1.5 1 1 1 1 : 1: 1 : 1.5 : 1.5 2 : 2 : 2 : 3 : 3 1 13 NMR spectrum BM PPM BM 13 NMR spectrum DEPT OSY a b c d a c 1 NMR spectrum PPM a-c a

More information

Fig. ph Si-O-Na H O Si- Na OH Si-O-Si OH Si-O Si-OH Si-O-Si Si-O Si-O Si-OH Si-OH Si-O-Si H O 6

Fig. ph Si-O-Na H O Si- Na OH Si-O-Si OH Si-O Si-OH Si-O-Si Si-O Si-O Si-OH Si-OH Si-O-Si H O 6 NMR ESR NMR 5 Fig. ph Si-O-Na H O Si- Na OH Si-O-Si OH Si-O Si-OH Si-O-Si Si-O Si-O Si-OH Si-OH Si-O-Si H O 6 Fig. (a) Na O-B -Si Na O-B Si Fig. (b) Na O-CaO-SiO Na O-CaO-B -Si. Na O-. CaO-. Si -. Al O

More information

プログラム

プログラム

More information

放射線専門医認定試験(2009・20回)/HOHS‐05(基礎二次)

放射線専門医認定試験(2009・20回)/HOHS‐05(基礎二次)

More information

名称未設定

名称未設定 1 a C CF b c 4 5 Me Me S Jacobsen's catalyst Scheme 1. eagents and conditions: (a) C (1.5 equiv), Jacobsen's catalyst (0.05 equiv), toluene, 0 C, 40 h, then trifluoroacetic anhydride (4.0 equiv), 60 C,

More information

untitled

untitled

More information

日歯雑誌(H19・5月号)済/P6‐16 クリニカル  柿木 5

日歯雑誌(H19・5月号)済/P6‐16 クリニカル  柿木 5

More information

36 th IChO : - 3 ( ) , G O O D L U C K final 1

36 th IChO : - 3 ( ) , G O O D L U C K final 1 36 th ICh - - 5 - - : - 3 ( ) - 169 - -, - - - - - - - G D L U C K final 1 1 1.01 2 e 4.00 3 Li 6.94 4 Be 9.01 5 B 10.81 6 C 12.01 7 N 14.01 8 16.00 9 F 19.00 10 Ne 20.18 11 Na 22.99 12 Mg 24.31 Periodic

More information

2016.

2016.

More information

第121回関東連合産科婦人科学会総会・学術集会 プログラム・抄録

第121回関東連合産科婦人科学会総会・学術集会 プログラム・抄録

More information

untitled

untitled 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

Reaction Mechanism and Liquefaction Process of Coal Yosuke MAEKAWA

Reaction Mechanism and Liquefaction Process of Coal Yosuke MAEKAWA Reaction Mechanism and Liquefaction Process of Coal Yosuke MAEKAWA Fig.2 Produced gas composition of vitrinite hydrogenation at 400 Ž Fig.1 Symplified average structural model of Taiheiyo coal hydrogenation

More information

From Evans Application Notes

From Evans Application Notes 3 From Evans Application Notes http://www.eaglabs.com From Evans Application Notes http://www.eaglabs.com XPS AES ISS SSIMS ATR-IR 1-10keV µ 1 V() r = kx 2 = 2π µν x mm 1 2 µ= m + m 1 2 1 k ν = OSC 2

More information

ナノ粒子のサイズ・形態制御と 構造敏感型触媒プロセスへの応用

ナノ粒子のサイズ・形態制御と 構造敏感型触媒プロセスへの応用 2 3 10 9 m = 1 nm m 4 5 100 m 1m 10cm 100 m 1cm 1mm 10 m 1 m 100nm 10nm 1nm 1 10 m 1 m 1nm 100nm 10nm 10 8 6 1 nm 10 8 7 9 10 11 12 13 14 15 17 18 19 20 21 nm Ni-Zn 2- Ni-Zn Zn Ni Ni-Zn B 5 10 nm 23

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 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 information

δδ 1 2 δ δ δ δ μ H 2.1 C 2.5 N 3.0 O 3.5 Cl 3.0 S μ

δδ 1 2 δ δ δ δ μ H 2.1 C 2.5 N 3.0 O 3.5 Cl 3.0 S μ 1961. (Received January 15, 2013) 1) 1. 2. ph 2) 3) 2) 2) 2001 4 6) 7) ph ph ph 1961 1962 1. 2 1 1 δδ 1 2 δ δ δ δ μ 1 1 1 1. H 2.1 C 2.5 N 3.0 O 3.5 Cl 3.0 S 2.5 1 1. μ 1 3. 1 2. 1963 1,4- δ δ 1 3 2 δ

More information

プログラム

プログラム

More information

kcal/mol 83kcal/mol 2 63 kcal/mol 83 kcal/mol kcal/mol nm kcal/mol nm

kcal/mol 83kcal/mol 2 63 kcal/mol 83 kcal/mol kcal/mol nm kcal/mol nm 4. 2 3 2 E n 7 2 2 2 1 2 2 3 3 3 4 1(A) 2 2 2 4 1(B) 3 6 2 4 2 4 1 2 4 2 40 2 2 2 146 kcal/mol 83kcal/mol 2 63 kcal/mol 83 kcal/mol kcal/mol nm kcal/mol nm - 3 104 138-3 91 157-2 5 98 146-6 5 112 128-6

More information

表紙4_1/山道 小川内 小川内 芦塚

表紙4_1/山道 小川内 小川内 芦塚 1 2008.1Vol.23 2008.1Vol.23 2 2008.1Vol.23 3 2008.1Vol.23 4 5 2008.1Vol.23 2008.1Vol.23 6 7 2008.1Vol.23 2008.1Vol.23 8 9 2008.1Vol.23 10 2008.1Vol.23 11 2008.1Vol.23 12 2008.1Vol.23 Center 13 2008.1Vol.23

More information

報告書

報告書 1 2 3 4 5 6 7 or 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 2.65 2.45 2.31 2.30 2.29 1.95 1.79 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 60 55 60 75 25 23 6064 65 60 1015

More information

II III I ~ 2 ~

II III I ~ 2 ~

More information

中堅中小企業向け秘密保持マニュアル

中堅中小企業向け秘密保持マニュアル

More information

20 15 14.6 15.3 14.9 15.7 16.0 15.7 13.4 14.5 13.7 14.2 10 10 13 16 19 22 1 70,000 60,000 50,000 40,000 30,000 20,000 10,000 0 2,500 59,862 56,384 2,000 42,662 44,211 40,639 37,323 1,500 33,408 34,472

More information

PR映画-1

PR映画-1

More information

I? 3 1 3 1.1?................................. 3 1.2?............................... 3 1.3!................................... 3 2 4 2.1........................................ 4 2.2.......................................

More information

- 2 -

- 2 - - 2 - - 3 - (1) (2) (3) (1) - 4 - ~ - 5 - (2) - 6 - (1) (1) - 7 - - 8 - (i) (ii) (iii) (ii) (iii) (ii) 10 - 9 - (3) - 10 - (3) - 11 - - 12 - (1) - 13 - - 14 - (2) - 15 - - 16 - (3) - 17 - - 18 - (4) -

More information

2 1980 8 4 4 4 4 4 3 4 2 4 4 2 4 6 0 0 6 4 2 4 1 2 2 1 4 4 4 2 3 3 3 4 3 4 4 4 4 2 5 5 2 4 4 4 0 3 3 0 9 10 10 9 1 1

2 1980 8 4 4 4 4 4 3 4 2 4 4 2 4 6 0 0 6 4 2 4 1 2 2 1 4 4 4 2 3 3 3 4 3 4 4 4 4 2 5 5 2 4 4 4 0 3 3 0 9 10 10 9 1 1 1 1979 6 24 3 4 4 4 4 3 4 4 2 3 4 4 6 0 0 6 2 4 4 4 3 0 0 3 3 3 4 3 2 4 3? 4 3 4 3 4 4 4 4 3 3 4 4 4 4 2 1 1 2 15 4 4 15 0 1 2 1980 8 4 4 4 4 4 3 4 2 4 4 2 4 6 0 0 6 4 2 4 1 2 2 1 4 4 4 2 3 3 3 4 3 4 4

More information

1 (1) (2)

1 (1) (2) 1 2 (1) (2) (3) 3-78 - 1 (1) (2) - 79 - i) ii) iii) (3) (4) (5) (6) - 80 - (7) (8) (9) (10) 2 (1) (2) (3) (4) i) - 81 - ii) (a) (b) 3 (1) (2) - 82 - - 83 - - 84 - - 85 - - 86 - (1) (2) (3) (4) (5) (6)

More information

(iii) 0 V, x V, x + 0 = x. 0. (iv) x V, y V, x + y = 0., y x, y = x. (v) 1x = x. (vii) (α + β)x = αx + βx. (viii) (αβ)x = α(βx)., V, C.,,., (1)

(iii) 0 V, x V, x + 0 = x. 0. (iv) x V, y V, x + y = 0., y x, y = x. (v) 1x = x. (vii) (α + β)x = αx + βx. (viii) (αβ)x = α(βx)., V, C.,,., (1) 1. 1.1...,. 1.1.1 V, V x, y, x y x + y x + y V,, V x α, αx αx V,, (i) (viii) : x, y, z V, α, β C, (i) x + y = y + x. (ii) (x + y) + z = x + (y + z). 1 (iii) 0 V, x V, x + 0 = x. 0. (iv) x V, y V, x + y

More information

B

B 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 information

寄稿論文 規則性無機ナノ空間が創り出す新しい触媒能 | 東京化成工業

寄稿論文 規則性無機ナノ空間が創り出す新しい触媒能 | 東京化成工業 MCM-41 M41 MCM-41 M41 2 3 m 2 /g nm nm Mn Ti Ti H N 2 S Ti-MCM-41, H H N H H 2 2 -Urea, CH 2 Cl 2, H 2 S + S 1b 2b 3b 54%, 58% ee Ti M41 H 2 As 4 ZP 4 ZP ZS ZS 5 Me Me Me Me M41 / 15 mg MeH 1.0 mmol 89%

More information

SPring8菅野印刷.PDF

SPring8菅野印刷.PDF 20021219Spring-8 Ah/kg Ah/dm 3 Li -3.01 540 3860 2090 Na -2.71 970 1160 1140 Al -1.66 2690 2980 8100 Zn -0.76 7140 820 5800 Fe -0.44 7850 960 7500 Cd -0.40 8650 480 4100 Pb -0.13 11340 260 2900 H 2 0

More information

寄稿論文 ボロンアルドール反応の新展開 | 東京化成工業

寄稿論文 ボロンアルドール反応の新展開 | 東京化成工業 substrate control reagent control Tf Tf amine H n-u Tf Et 3 3 n-u Tf Et syn Tf anti n Tf, Amine (1.3eq) (1.5eq) CH Cl, -78 C n n Z E CH -78 C, 1h; 0 C, 1h n H Triflate Et Tf n-u Tf c-pen Tf Tf Amine Yield

More information

(1) PQ (2) () 2 PR = PR P : P = R : R (2) () = P = P R M = XM : = M : M (1) (2) = N = N X M 161 (1) (2) F F = F F F EF = F E

(1) PQ (2) () 2 PR = PR P : P = R : R (2) () = P = P R M = XM : = M : M (1) (2) = N = N X M 161 (1) (2) F F = F F F EF = F E 5 1 1 1.1 2 159 O O PQ RS OR P = PQ P O M MQ O (1) M P (2) P : P R : R () PR P 160 > M : = M : M X (1) N = N M // N X M (2) M 161 (1) E = 8 = 4 = = E = (2) : = 2 : = E = E F 5 F EF F E 5 1 159 (1) PQ (2)

More information

85 4

85 4 85 4 86 Copright c 005 Kumanekosha 4.1 ( ) ( t ) t, t 4.1.1 t Step! (Step 1) (, 0) (Step ) ±V t (, t) I Check! P P V t π 54 t = 0 + V (, t) π θ : = θ : π ) θ = π ± sin ± cos t = 0 (, 0) = sin π V + t +V

More information

i

i i ii 1 6 9 12 15 16 19 19 19 21 21 22 22 23 26 32 34 35 36 3 37 5 5 4 4 5 iii 4 55 55 59 59 7 7 8 8 9 9 10 10 1 11 iv ozein Van Marum 1801 Cruiokshank Marum 1840 Schonbein 3 / atm 1 N 1892 50 1960 1970

More information

18 2 20 W/C W/C W/C 4-4-1 0.05 1.0 1000 1. 1 1.1 1 1.2 3 2. 4 2.1 4 (1) 4 (2) 4 2.2 5 (1) 5 (2) 5 2.3 7 3. 8 3.1 8 3.2 ( ) 11 3.3 11 (1) 12 (2) 12 4. 14 4.1 14 4.2 14 (1) 15 (2) 16 (3) 17 4.3 17 5. 19

More information

limit&derivative

limit&derivative - - 7 )................................................................................ 5.................................. 7.. e ).......................... 9 )..........................................

More information

untitled

untitled 254nm UV TiO 2 20nm :Sr 5 Ta 4 O 15 3 4 KEY-1 KEY-2 (Ti,Nb,Ta) 5 KEY-1 KEY-2 6 7 NiO/ Sr 2 Ta 2 O 7 mmol h -1 g -1 20 15 10 5 H 2 O 2 H 2 O 2 0 0 2 4 6 8 10 12 NiO/Sr 2 Ta 2 O 7 The synthesis of photocatalysts

More information

Fig. 3. Morse curves for the ground ( a ) and excited state ( b ) of a diatomic molecule2) Fig. 2. The various modes of energy dissipation from electr

Fig. 3. Morse curves for the ground ( a ) and excited state ( b ) of a diatomic molecule2) Fig. 2. The various modes of energy dissipation from electr Color and Constitution of Organic Colorants, and Some Approach to New Chromophore Masaru MATSUOKA Fig. 3. Morse curves for the ground ( a ) and excited state ( b ) of a diatomic molecule2) Fig. 2. The

More information

() n C + n C + n C + + n C n n (3) n C + n C + n C 4 + n C + n C 3 + n C 5 + (5) (6 ) n C + nc + 3 nc n nc n (7 ) n C + nc + 3 nc n nc n (

() n C + n C + n C + + n C n n (3) n C + n C + n C 4 + n C + n C 3 + n C 5 + (5) (6 ) n C + nc + 3 nc n nc n (7 ) n C + nc + 3 nc n nc n ( 3 n nc k+ k + 3 () n C r n C n r nc r C r + C r ( r n ) () n C + n C + n C + + n C n n (3) n C + n C + n C 4 + n C + n C 3 + n C 5 + (4) n C n n C + n C + n C + + n C n (5) k k n C k n C k (6) n C + nc

More information

t θ, τ, α, β S(, 0 P sin(θ P θ S x cos(θ SP = θ P (cos(θ, sin(θ sin(θ P t tan(θ θ 0 cos(θ tan(θ = sin(θ cos(θ ( 0t tan(θ

t θ, τ, α, β S(, 0 P sin(θ P θ S x cos(θ SP = θ P (cos(θ, sin(θ sin(θ P t tan(θ θ 0 cos(θ tan(θ = sin(θ cos(θ ( 0t tan(θ 4 5 ( 5 3 9 4 0 5 ( 4 6 7 7 ( 0 8 3 9 ( 8 t θ, τ, α, β S(, 0 P sin(θ P θ S x cos(θ SP = θ P (cos(θ, sin(θ sin(θ P t tan(θ θ 0 cos(θ tan(θ = sin(θ cos(θ ( 0t tan(θ S θ > 0 θ < 0 ( P S(, 0 θ > 0 ( 60 θ

More information

酸化的付加 (oxidative addition)

酸化的付加 (oxidative addition) 酸化的付加 酸化的付加 oxidative addition 有機反応との類似点 Grignard 試薬の生成カルベン挿入反応 二核錯体上での酸化的付加 金属の酸化数 :+1 d 電子数 :-1 酸化的配位 求電子剤の配位により形式的に金属が酸化される ( 結合の切断が進行しない点で 酸化的付加と区別 ) 傾向 1. 電子豊富な金属中心の方が有利 2. 立体的に空いている金属中心の方が有利 3. 非極性結合の酸化的付加では

More information

Precisely Designed Catalysts News Letter Vol. 5 May, 2016

Precisely Designed Catalysts News Letter Vol. 5 May, 2016 recisely Designed Catalysts ews Letter Vol. 5 May, 2016 E-mail: sawamura@sci.hokudai.ac.jp Silica-SMA Silica-TI S-T Figure 1 Si 3 Si Si Si Si 2 Silica-SMA Si 3 Si Si Si Si 2 Silica-TI t Bu S S S-T t Bu

More information

リサイクルデータブック2016

リサイクルデータブック2016 AppendixEU SDGs2159EU 21512UNEPOECD2165G7 2165 213 Appendix 1 EU 2 EU 3 215 i CONTENTS i 1 213 1 213 2 1 4 2 2 6 3 3 6 4 213 7 4 5 9 6 213 9 5 7 1 8 213 1 9 11 1 213 11 11 213 11 6 6.1 12 213 14 6.2 13

More information

1) Y. Kobuke, K. Hanji, K. Horiguchi, M. Asada, Y. Nakayama, J. Furukawa, J. Am. Chem. Soc., 98, 7414(1976). 2) S. Yoshida, S. Hayano, J. Memb. Sci.,

1) Y. Kobuke, K. Hanji, K. Horiguchi, M. Asada, Y. Nakayama, J. Furukawa, J. Am. Chem. Soc., 98, 7414(1976). 2) S. Yoshida, S. Hayano, J. Memb. Sci., 1) Y. Kobuke, K. Hanji, K. Horiguchi, M. Asada, Y. Nakayama, J. Furukawa, J. Am. Chem. Soc., 98, 7414(1976). 2) S. Yoshida, S. Hayano, J. Memb. Sci., 11, 157(1982). 3) J. D. Lamb, J. J. Christensen, J.

More information

( )

( ) 18 10 01 ( ) 1 2018 4 1.1 2018............................... 4 1.2 2018......................... 5 2 2017 7 2.1 2017............................... 7 2.2 2017......................... 8 3 2016 9 3.1 2016...............................

More information

CTETS 7 8 9 11 Addition Rf Rf u Rf Rf u u : R, R 2, RS, X etc. Hydrolysisesterification Ewg Ewg H C 3 H C 2 R Ewg Ewg Ewg=C 3, C 2 R' etc. R=H or Alkyl Ewg Ewg RH Base Ewg Ewg R RH Base Ewg Ewg R R Amidation

More information

( ) 2002 1 1 1 1.1....................................... 1 1.1.1................................. 1 1.1.2................................. 1 1.1.3................... 3 1.1.4......................................

More information

2

2 th 37 ICh Theoretical Examination - - - - 5 - - : - ( ): ( ) - : 279 - - - - - - - G D L U C K 1 2 1 amu = 1.6605 10-27 kg N = 6.02 10 23 mol -1 k = 1.3806503 10-23 J K -1 e = 1.6022 10-19 C F = 9.6485

More information

positron 1930 Dirac 1933 Anderson m 22Na(hl=2.6years), 58Co(hl=71days), 64Cu(hl=12hour) 68Ge(hl=288days) MeV : thermalization m psec 100

positron 1930 Dirac 1933 Anderson m 22Na(hl=2.6years), 58Co(hl=71days), 64Cu(hl=12hour) 68Ge(hl=288days) MeV : thermalization m psec 100 positron 1930 Dirac 1933 Anderson m 22Na(hl=2.6years), 58Co(hl=71days), 64Cu(hl=12hour) 68Ge(hl=288days) 0.5 1.5MeV : thermalization 10 100 m psec 100psec nsec E total = 2mc 2 + E e + + E e Ee+ Ee-c mc

More information

プログラム集計(座長付)ver11

プログラム集計(座長付)ver11 2 11 8 A 17 21 9 30 2A01 2A02 2A03 9:20 9:30 PC 9:30 10:30 9:30 9:50 * WPI-ITbM ** CREST-JST *** Univ. of North Carolina at Chapel Hill **** * M. A. Horwitz **** * *,**,*** J. S. Johnson **** 9:50 10:10

More information

Microsoft Word - 4NMR2.doc

Microsoft Word - 4NMR2.doc 4 NMR 4.1 Zeeman 1, 13 C, 19 F, 31 P NMR 1 13 C 1/2 4.1 7%&'- 89:;'

More information

1 1 H Li Be Na M g B A l C S i N P O S F He N Cl A e K Ca S c T i V C Mn Fe Co Ni Cu Zn Ga Ge As Se B K Rb S Y Z Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb T e

1 1 H Li Be Na M g B A l C S i N P O S F He N Cl A e K Ca S c T i V C Mn Fe Co Ni Cu Zn Ga Ge As Se B K Rb S Y Z Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb T e No. 1 1 1 H Li Be Na M g B A l C S i N P O S F He N Cl A e K Ca S c T i V C Mn Fe Co Ni Cu Zn Ga Ge As Se B K Rb S Y Z Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb T e I X e Cs Ba F Ra Hf Ta W Re Os I Rf Db Sg Bh

More information

Introduction ur company has just started service to cut out sugar chains from protein and supply them to users by utilizing the handling technology of

Introduction ur company has just started service to cut out sugar chains from protein and supply them to users by utilizing the handling technology of Standard PA-Sugar Chain Catalogue Masuda Chemical Industries Co., LTD. http://www.mc-ind.co.jp Introduction ur company has just started service to cut out sugar chains from protein and supply them to users

More information

橡Taro11-報告書0.PDF

橡Taro11-報告書0.PDF Research Center RC 2001 5-1- RC RC NHK -2- -3- 00/12/16 RC 01/01/07 RC 01/01/21 1 13 01/02/11 2 9 01/02/10 01/02/14 01/02/19 01/02/25 3 7 01/03/10 4 8 01/03/23 5 8 01/04/29 2001/01/07-4- -5- RC 1990 RC

More information

Γ Ec Γ V BIAS THBV3_0401JA THBV3_0402JAa THBV3_0402JAb 1000 800 600 400 50 % 25 % 200 100 80 60 40 20 10 8 6 4 10 % 2.5 % 0.5 % 0.25 % 2 1.0 0.8 0.6 0.4 0.2 0.1 200 300 400 500 600 700 800 1000 1200 14001600

More information

n 2 + π2 6 x [10 n x] x = lim n 10 n n 10 k x 1.1. a 1, a 2,, a n, (a n ) n=1 {a n } n=1 1.2 ( ). {a n } n=1 Q ε > 0 N N m, n N a m

n 2 + π2 6 x [10 n x] x = lim n 10 n n 10 k x 1.1. a 1, a 2,, a n, (a n ) n=1 {a n } n=1 1.2 ( ). {a n } n=1 Q ε > 0 N N m, n N a m 1 1 1 + 1 4 + + 1 n 2 + π2 6 x [10 n x] x = lim n 10 n n 10 k x 1.1. a 1, a 2,, a n, (a n ) n=1 {a n } n=1 1.2 ( ). {a n } n=1 Q ε > 0 N N m, n N a m a n < ε 1 1. ε = 10 1 N m, n N a m a n < ε = 10 1 N

More information

最新耐震構造解析 ( 第 3 版 ) 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. このサンプルページの内容は, 第 3 版 1 刷発行時のものです.

最新耐震構造解析 ( 第 3 版 ) 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. このサンプルページの内容は, 第 3 版 1 刷発行時のものです. 最新耐震構造解析 ( 第 3 版 ) 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/052093 このサンプルページの内容は, 第 3 版 1 刷発行時のものです. i 3 10 3 2000 2007 26 8 2 SI SI 20 1996 2000 SI 15 3 ii 1 56 6

More information

2 FIG. 1: : n FIG. 2: : n (Ch h ) N T B Ch h n(z) = (sin ϵ cos ω(z), sin ϵ sin ω(z), cos ϵ), (1) 1968 Meyer [5] 50 N T B Ch h [4] N T B 10 nm Ch h 1 µ

2 FIG. 1: : n FIG. 2: : n (Ch h ) N T B Ch h n(z) = (sin ϵ cos ω(z), sin ϵ sin ω(z), cos ϵ), (1) 1968 Meyer [5] 50 N T B Ch h [4] N T B 10 nm Ch h 1 µ : (Dated: February 5, 2016), (Ch), (Oblique Helicoidal) (Ch H ), Twist-bend (N T B ) I. (chiral: ) (achiral) (n) (Ch) (N ) 1996 [1] [2] 2013 (N T B ) [3] 2014 [4] (oblique helicoid) 2016 1 29 Electronic

More information

本文/YA4278I

本文/YA4278I pp. D- D-DAO DAO D- D- D- D- o- DAO-D- D-DAO DAO Hans Krebs FAD X DAO DAO DAO D- Structure and reaction mechanism of D-amino acid oxidase Yasuzo Nishina School of Health Sciences, Kumamoto University,

More information

xx/xx Vol. Jxx A No. xx 1 Fig. 1 PAL(Panoramic Annular Lens) PAL(Panoramic Annular Lens) PAL (2) PAL PAL 2 PAL 3 2 PAL 1 PAL 3 PAL PAL 2. 1 PAL

xx/xx Vol. Jxx A No. xx 1 Fig. 1 PAL(Panoramic Annular Lens) PAL(Panoramic Annular Lens) PAL (2) PAL PAL 2 PAL 3 2 PAL 1 PAL 3 PAL PAL 2. 1 PAL PAL On the Precision of 3D Measurement by Stereo PAL Images Hiroyuki HASE,HirofumiKAWAI,FrankEKPAR, Masaaki YONEDA,andJien KATO PAL 3 PAL Panoramic Annular Lens 1985 Greguss PAL 1 PAL PAL 2 3 2 PAL DP

More information

42 3 u = (37) MeV/c 2 (3.4) [1] u amu m p m n [1] m H [2] m p = (4) MeV/c 2 = (13) u m n = (4) MeV/c 2 =

42 3 u = (37) MeV/c 2 (3.4) [1] u amu m p m n [1] m H [2] m p = (4) MeV/c 2 = (13) u m n = (4) MeV/c 2 = 3 3.1 3.1.1 kg m s J = kg m 2 s 2 MeV MeV [1] 1MeV=1 6 ev = 1.62 176 462 (63) 1 13 J (3.1) [1] 1MeV/c 2 =1.782 661 731 (7) 1 3 kg (3.2) c =1 MeV (atomic mass unit) 12 C u = 1 12 M(12 C) (3.3) 41 42 3 u

More information

抄録/抄録1    (1)V

抄録/抄録1    (1)V

More information

.2 ρ dv dt = ρk grad p + 3 η grad (divv) + η 2 v.3 divh = 0, rote + c H t = 0 dive = ρ, H = 0, E = ρ, roth c E t = c ρv E + H c t = 0 H c E t = c ρv T

.2 ρ dv dt = ρk grad p + 3 η grad (divv) + η 2 v.3 divh = 0, rote + c H t = 0 dive = ρ, H = 0, E = ρ, roth c E t = c ρv E + H c t = 0 H c E t = c ρv T NHK 204 2 0 203 2 24 ( ) 7 00 7 50 203 2 25 ( ) 7 00 7 50 203 2 26 ( ) 7 00 7 50 203 2 27 ( ) 7 00 7 50 I. ( ν R n 2 ) m 2 n m, R = e 2 8πε 0 hca B =.09737 0 7 m ( ν = ) λ a B = 4πε 0ħ 2 m e e 2 = 5.2977

More information

Degradation Mechanism of Ethylene-propylene-diene Terpolymer by Ozone in Aqueous Solution Satoshi MIWA 1 *, 2, Takako KIKUCHI 1, 2, Yoshito OHTAKE 1 a

Degradation Mechanism of Ethylene-propylene-diene Terpolymer by Ozone in Aqueous Solution Satoshi MIWA 1 *, 2, Takako KIKUCHI 1, 2, Yoshito OHTAKE 1 a Degradation Mechanism of Ethylene-propylene-diene Terpolymer by zone in Aqueous Solution Satoshi MIWA 1, 2, Takako KIKUCHI 1, 2, Yoshito TAKE 1 and Keiji TANAKA 2 ( 1 Chemicals Evaluation and Research

More information

特-7.indd

特-7.indd Mechanical Properties and Weldability of Turbine Impeller Materials for High Temperature Exhaust Gas Turbocharger 1 000 1 050 246 IN100 The increase in environmental awareness in recent years has led to

More information

16 16 16 1 16 2 16 3 24 4 24 5 25 6 33 7 33 33 1 33 2 34 3 34 34 34 34 34 34 4 34-1 - 5 34 34 34 1 34 34 35 36 36 2 38 38 41 46 47 48 1 48 48 48-2 - 49 50 51 2 52 52 53 53 1 54 2 54 54 54 56 57 57 58 59

More information

PALL NEWS vol.126 November 2017

PALL NEWS vol.126 November 2017 PALL NEWS November 2017 Vol.126 PALL NEWS vol.126 November 2017 NEW =2000 9660 41.4 MPa 24 MPa NFPA T2.06.01 R2-2001 CAT C/90/* (1x10 6 0-28 MPa 1x10 6 29 120 C 60 C 450 Pa 340 Pa 1 MPa JIS B 8356-3/ISO

More information

19 σ = P/A o σ B Maximum tensile strength σ % 0.2% proof stress σ EL Elastic limit Work hardening coefficient failure necking σ PL Proportional

19 σ = P/A o σ B Maximum tensile strength σ % 0.2% proof stress σ EL Elastic limit Work hardening coefficient failure necking σ PL Proportional 19 σ = P/A o σ B Maximum tensile strength σ 0. 0.% 0.% proof stress σ EL Elastic limit Work hardening coefficient failure necking σ PL Proportional limit ε p = 0.% ε e = σ 0. /E plastic strain ε = ε e

More information

CVMに基づくNi-Al合金の

CVM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 information

a L = Ψ éiγ c pa qaa mc ù êë ( - )- úû Ψ 1 Ψ 4 γ a a 0, 1,, 3 {γ a, γ b } η ab æi O ö æo ö β, σ = ço I α = è - ø çèσ O ø γ 0 x iβ γ i x iβα i

a L = Ψ éiγ c pa qaa mc ù êë ( - )- úû Ψ 1 Ψ 4 γ a a 0, 1,, 3 {γ a, γ b } η ab æi O ö æo ö β, σ = ço I α = è - ø çèσ O ø γ 0 x iβ γ i x iβα i 解説 4 matsuo.mamoru jaea.go.jp 4 eizi imr.tohoku.ac.jp 4 maekawa.sadamichi jaea.go.jp i ii iii i Gd Tb Dy g khz Pt ii iii Keywords vierbein 3 dreibein 4 vielbein torsion JST-ERATO 1 017 1. 1..1 a L = Ψ

More information

( ) ,

( ) , II 2007 4 0. 0 1 0 2 ( ) 0 3 1 2 3 4, - 5 6 7 1 1 1 1 1) 2) 3) 4) ( ) () H 2.79 10 10 He 2.72 10 9 C 1.01 10 7 N 3.13 10 6 O 2.38 10 7 Ne 3.44 10 6 Mg 1.076 10 6 Si 1 10 6 S 5.15 10 5 Ar 1.01 10 5 Fe 9.00

More information

RAA-05(201604)MRA対応製品ver6

RAA-05(201604)MRA対応製品ver6 M R A 対 応 製 品 ISO/IEC 17025 ISO/IEC 17025は 試験所及び校正機関が特定の試験又は 校正を実施する能力があるものとして認定を 受けようとする場合の一般要求事項を規定した国際規格 国際相互承認 MRA Mutual Recognition Arrangement 相互承認協定 とは 試験 検査を実施する試験所 検査機関を認定する国際組織として ILAC 国際試験所認定協力機構

More information

4 4 θ X θ P θ 4. 0, 405 P 0 X 405 X P 4. () 60 () 45 () 40 (4) 765 (5) 40 B 60 0 P = 90, = ( ) = X

4 4 θ X θ P θ 4. 0, 405 P 0 X 405 X P 4. () 60 () 45 () 40 (4) 765 (5) 40 B 60 0 P = 90, = ( ) = X 4 4. 4.. 5 5 0 A P P P X X X X +45 45 0 45 60 70 X 60 X 0 P P 4 4 θ X θ P θ 4. 0, 405 P 0 X 405 X P 4. () 60 () 45 () 40 (4) 765 (5) 40 B 60 0 P 0 0 + 60 = 90, 0 + 60 = 750 0 + 60 ( ) = 0 90 750 0 90 0

More information

misasa_vol35

misasa_vol35

More information

熊本県数学問題正解

熊本県数学問題正解 00 y O x Typed by L A TEX ε ( ) (00 ) 5 4 4 ( ) http://www.ocn.ne.jp/ oboetene/plan/. ( ) (009 ) ( ).. http://www.ocn.ne.jp/ oboetene/plan/eng.html 8 i i..................................... ( )0... (

More information

1 c H O. H C C O H. CH 3 COOH ( ). C 2 H 4 O 2. CH 2 O H [. CH2 CH 2 CH CH ]. CH 3 COOH 3 1 C H ( ) CH 3 CH 3 CH CH CH

1 c H O. H C C O H. CH 3 COOH ( ). C 2 H 4 O 2. CH 2 O H [. CH2 CH 2 CH CH ]. CH 3 COOH 3 1 C H ( ) CH 3 CH 3 CH CH CH 1.. 3 (). 2 4 2. 2 [. 2 2 ]. 3 3 1 () 3 3 2 3 ( 3 ) 2 ( 3 ) 2 2,., (). (, ).,.,.. 3 3 3 3 ( ). 1. 2. N 2 2 N 3 ( ) ( ) N N ( N ) N N ( N ) N N 2 N 2 S 3 N N = N [...,. ] 2 1 1 4 ( 6 ) ( 1 ). 2 ( 4 ) (

More information

1. (8) (1) (x + y) + (x + y) = 0 () (x + y ) 5xy = 0 (3) (x y + 3y 3 ) (x 3 + xy ) = 0 (4) x tan y x y + x = 0 (5) x = y + x + y (6) = x + y 1 x y 3 (

1. (8) (1) (x + y) + (x + y) = 0 () (x + y ) 5xy = 0 (3) (x y + 3y 3 ) (x 3 + xy ) = 0 (4) x tan y x y + x = 0 (5) x = y + x + y (6) = x + y 1 x y 3 ( 1 1.1 (1) (1 + x) + (1 + y) = 0 () x + y = 0 (3) xy = x (4) x(y + 3) + y(y + 3) = 0 (5) (a + y ) = x ax a (6) x y 1 + y x 1 = 0 (7) cos x + sin x cos y = 0 (8) = tan y tan x (9) = (y 1) tan x (10) (1 +

More information

医系の統計入門第 2 版 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. このサンプルページの内容は, 第 2 版 1 刷発行時のものです.

医系の統計入門第 2 版 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. このサンプルページの内容は, 第 2 版 1 刷発行時のものです. 医系の統計入門第 2 版 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/009192 このサンプルページの内容は, 第 2 版 1 刷発行時のものです. i 2 t 1. 2. 3 2 3. 6 4. 7 5. n 2 ν 6. 2 7. 2003 ii 2 2013 10 iii 1987

More information

124

124 [ ] [ ] 18 123 124 ( ) 125 126 127 128 5,683,062 2,306,419 18.2 14.0 12 5389 87 13 257 88 12 22 27 56.7 41.6 1 1.7 15 129 55 38.8 13.3 15 2004 15 1 3 84.8 29.3 1 23.9 38.0 10 10 35 35 15 5 56.5.31 55.4.1

More information

研修コーナー

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 information

<4D F736F F D B B83578B6594BB2D834A836F815B82D082C88C602E646F63>

<4D F736F F D B B83578B6594BB2D834A836F815B82D082C88C602E646F63> スピントロニクスの基礎 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/077461 このサンプルページの内容は, 初版 1 刷発行時のものです. i 1 2 ii 3 5 4 AMR (anisotropic magnetoresistance effect) GMR (giant magnetoresistance

More information
2024 © docsplayer.net プライバシー | 利用規約 | フィードバック