<4D F736F F D EA98DECB2DDCBDFB0C0DEDDBDA5B1C5D7B2BBDEB082F A282BDBDCBDFB0B6B082CC666F82C6B2DDCBDFB0C0DEDDBD82CC91AA92E85B8CF68A4A5D732E648163>
|
|
- としはる おえづか
- 7 years ago
- Views:
Transcription
1
2
3
4
5
6
7
8
9 166Hz
10 167Hz 168Hz
11
12
13
14 Z Z X RX = G X C = 2 π f 1 Z () 2 2 Z RLS L = ( H ) RLS 2 π f 2 R 2 CP ( F) R CP
15
16
17
18
19 Z X Z X Z X = e e 2 2 e2 = e Z = e + X 1 e2 e2 1 e1 RX Z X = = Za = Z X RX Zb = e1 Z X e2 Z X 1 1 Z2 = = = 1,713 ( ) Z1 Z2Z 8 c 2 1,
20 Wave Spectra
21
22
23
24 Z L C
W810 QX100 QX30 QX10 W810 QX100 QX30 QX10 RX100 RX100 WX500 WX350 RX100 RX100 HX400V HX90V HX60V RX100 RX100 RX100 RX100 HX400V HX90V HX60V WX500 WX350 RX100 RX100 WX500 WX350 RX100 RX100 HX400V HX90V
More informationJean Le Rond d Alembert, ( ) 2005
5 5.1 5.2 5.3 1700 Jean Le Rond d Alembert, (1717-1783) 2005 5. 1 123 5.1 5.2 124 5. 5.3 lumped mass modeling) 5. 1 5.4 x x A l ρ 5.4 5. 1 125 x 10 x y(x, t) y M(x, t) Q(x, t) E I 2 y/ 2 M = EI 2 y 2 (5.1)
More information組N
2 421 @0836532028 88 202 14 38 70 25 3 21 21 4 π 20 12 21 01 02 5 6 7 21 300 100 50 100 1 0839333188 1 0839213090 034145 040176 065 8 9 山口県の中小企業 10 11 128 0836831403 41 19 10839222606 21 6020 12 13 60
More informationH1
1 2 3 4 5 6 7 1 2 8 3 4 50Hz 9 10 60Hz 11 12 13 14 15 16 17 EW EW EW KP-J KP-J KP-SJ New New New New New New New New New New 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 New New New New
More information健診の手引き_0707変.indd
3 3 3 3 4 4 4 4 4 4 5 6 6 7 7 7 7 7 8 8 8 8 8 8 8 9 9 9 9 9 9 10 10 10 10 10 11 11 11 11 11 11 11 11 11 12 12 12 12 12 12 12 13 13 13 13 13 13 13 14 14 14 14 14 15 15 15 15 16 16 16 16 17 17 17 18 18 18
More information表紙
YES NO YES NO YES NO NO YES YES NO YES NO YES NO NO YES YES NO NO YES YES NO NO YES YES YES NO YES NO NO YES NO YES YES NO YES NO NO YES NO YES ZK1T880G ZK3F880G Z413269 Z416650 Z415704
More informationuntitled
MRR Physical Basis( 1.8.4) METEK MRR 1 MRR 1.1 MRR 24GHz FM-CW(frequency module continuous wave) 30 r+ r f+ f 1.2 1 4 MRR 24GHz 1.3 50mW 1 rf- (waveguide) (horn) 60cm ( monostatic radar) (continuous wave)
More informationmain.dvi
2 e jωt, 0 ωt < 2π 2.1 2.1.1 x(n) X(z) = x(n)z n (2.1) z z z = e σ+jωt = re jωt, r = e σ (2.2) ωt 0 2π σ e σ+jωt = re jωt r = e σ 2.1 0
More information2
GRUNDFOS DATA BOOKLETS CR, CRN IEC 11kW CR(N)1, 3, 5, 1, 15, 2, 32, 45, 64, 9 2 34 32 3 5Hz 28 2 18 m 16 26 24 14 12 1 8 6 4 2 CR(N)1 CR(N)3 CR(N)5 CR(N)1 CR(N)15CR(N)2 CR(N)32 CR(N)45 CR(N)64 CR(N)9 16
More informationAS1161 : K21
2012 AUTUMN & WINTER CATALOG AS1161 : K21 AS3432 : A28 AS1157 : S83 AS1842 : K23 AS3433 : K25 AS1953 : A28 AS1730 : K25 AS3435 : K27 AS3434 : S83 AS3431 : N27 AS1159 : L04 AX1029 : C02 RX0044 : W06 AX1031
More information18 ( ) ( ) [ ] [ ) II III A B (120 ) 1, 2, 3, 5, 6 II III A B (120 ) ( ) 1, 2, 3, 7, 8 II III A B (120 ) ( [ ]) 1, 2, 3, 5, 7 II III A B (
8 ) ) [ ] [ ) 8 5 5 II III A B ),,, 5, 6 II III A B ) ),,, 7, 8 II III A B ) [ ]),,, 5, 7 II III A B ) [ ] ) ) 7, 8, 9 II A B 9 ) ) 5, 7, 9 II B 9 ) A, ) B 6, ) l ) P, ) l A C ) ) C l l ) π < θ < π sin
More information64 3 g=9.85 m/s 2 g=9.791 m/s 2 36, km ( ) 1 () 2 () m/s : : a) b) kg/m kg/m k
63 3 Section 3.1 g 3.1 3.1: : 64 3 g=9.85 m/s 2 g=9.791 m/s 2 36, km ( ) 1 () 2 () 3 9.8 m/s 2 3.2 3.2: : a) b) 5 15 4 1 1. 1 3 14. 1 3 kg/m 3 2 3.3 1 3 5.8 1 3 kg/m 3 3 2.65 1 3 kg/m 3 4 6 m 3.1. 65 5
More information2 5 6 9 19 20 23 31 32 35 39 40 41 47 48 51 52 55 1 2 1 2 3 3 4 1 2 3 4 5 5 1 2 3 6 4 5 6 7 7 8 8 1 2 3 9 4 5 6 7 8 10 9 10 11 11 1 2 3 4 12 5 6 7 8 13 1 2 14 3 4 15 1 2 3 4 16 5 17 18 19 1 2 20 1 2 3
More information(Hz) (kvar) (mm) A B C (kg) (L) 470 110 885 1995 1 0 700 895 5 120 2 300 990 0 130 400 1035 2095 6 0 1080 700 1 0 1120 710 800 190 7 1210 8 0 1255 2195 9 220 10 1 2300 1300 300 1195 0 1190 2400 10 3 470
More information(ii) (iii) z a = z a =2 z a =6 sin z z a dz. cosh z z a dz. e z dz. (, a b > 6.) (z a)(z b) 52.. (a) dz, ( a = /6.), (b) z =6 az (c) z a =2 53. f n (z
B 4 24 7 9 ( ) :,..,,.,. 4 4. f(z): D C: D a C, 2πi C f(z) dz = f(a). z a a C, ( ). (ii), a D, a U a,r D f. f(z) = A n (z a) n, z U a,r, n= A n := 2πi C f(ζ) dζ, n =,,..., (ζ a) n+, C a D. (iii) U a,r
More informationProducts catalog
2016 商品カタログ 低圧進相用フィルムコンデンサ % kvar 90 (b) % (c) (a) (kvar) (KVA) 220 V 100 kw 100 kw =7 % =99 % 100 ( % 130 ) 7 kvar 88 7=13 133 kw 88 kvar 101 kva 13 kvar kw kw ~ 100 kw 100 kw ~ 0 kw 0 kw ~ 2000 kw 2000
More informationTips KENZOU PC no problem 2 1 w = f(z) z 1 w w z w = (z z 0 ) b b w = log (z z 0 ) z = z 0 2π 2 z = z 0 w = z 1/2 z = re iθ θ (z = 0) 0 2π 0
Tips KENZOU 28 7 6 P no problem 2 w = f(z) z w w z w = (z z ) b b w = log (z z ) z = z 2π 2 z = z w = z /2 z = re iθ θ (z = ) 2π 4π 2 θ θ 2π 4π z r re iθ re i2π = r re i4π = r w r re iθ/2 re iπ = r re
More information10月表紙BB.indd
Q F Q Q Q Q Q Q Q F QF F QF QF F Q F 三 Q QF Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q P F F F F F F F F QF Q F PNAYQ RX Y F A P P P P Q F P Q F R P Y F Q R QF P QF P A Q F P A F Q P A F A Y F Q P A F P Q F PNAYQ RX
More information1 No.1 5 C 1 I III F 1 F 2 F 1 F 2 2 Φ 2 (t) = Φ 1 (t) Φ 1 (t t). = Φ 1(t) t = ( 1.5e 0.5t 2.4e 4t 2e 10t ) τ < 0 t > τ Φ 2 (t) < 0 lim t Φ 2 (t) = 0
1 No.1 5 C 1 I III F 1 F 2 F 1 F 2 2 Φ 2 (t) = Φ 1 (t) Φ 1 (t t). = Φ 1(t) t = ( 1.5e 0.5t 2.4e 4t 2e 10t ) τ < 0 t > τ Φ 2 (t) < 0 lim t Φ 2 (t) = 0 0 < t < τ I II 0 No.2 2 C x y x y > 0 x 0 x > b a dx
More informationNMRの信号がはじめて観測されてから47年になる。その後、NMRは1960年前半までPhys. Rev.等の物理学誌上を賑わせた。1960年代後半、物理学者の間では”NMRはもう死んだ”とささやかれたということであるが(1)、しかし、これほど発展した構造、物性の
5. NMR µ = γ I µ = γ I r H D 0 I r I r { I 3 I r r µ γγ 3( )( ) = } (5..) zb 0 µ 0 γγ I r I r 0( γ z γ z) { I 3 I r r 3( )( ) H = B I + I + } (5..) (5..) z z µ 0 γγ D = ( + + + + + ) 3 r H A B C D F (5..3)
More informationAI n Z f n : Z Z f n (k) = nk ( k Z) f n n 1.9 R R f : R R f 1 1 {a R f(a) = 0 R = {0 R 1.10 R R f : R R f 1 : R R 1.11 Z Z id Z 1.12 Q Q id
1 1.1 1.1 R R (1) R = 1 2 Z = 2 n Z (2) R 1.2 R C Z R 1.3 Z 2 = {(a, b) a Z, b Z Z 2 a, b, c, d Z (a, b) + (c, d) = (a + c, b + d), (a, b)(c, d) = (ac, bd) (1) Z 2 (2) Z 2? (3) Z 2 1.4 C Q[ 1] = {a + bi
More information振動工学に基礎
Ky Words. ω. ω.3 osω snω.4 ω snω ω osω.5 .6 ω osω snω.7 ω ω ( sn( ω φ.7 ( ω os( ω φ.8 ω ( ω sn( ω φ.9 ω anφ / ω ω φ ω T ω T s π T π. ω Hz ω. T π π rad/s π ω π T. T ω φ 6. 6. 4. 4... -... -. -4. -4. -6.
More information34号 目 次
1932 35 1939 π 36 37 1937 12 28 1998 2002 1937 20 ª 1937 2004 1937 12 º 1937 38 11 Ω 1937 1943 1941 39 æ 1936 1936 1936 10 1938 25 35 40 2004 4800 40 ø 41 1936 17 1935 1936 1938 1937 15 2003 28 42 1857
More information★10月P2-9ピックアップBB.indd
QL F QLF Q L F QL QL Q L Q L QL QL QL Q Q Q Q Q Q Q Q Q Q Q Q L Q Q L L Q L L L L L L L L L Q LF LF LF LF LF LF LF LF PNAYQ RX Y L F A P Q L L F P Q L L F Q L F A Q L F R P A L Q L F P LF PNAYQ RX R
More information*.\1-.\4
Fo New Technology Netwok R $ NTN 1 2 NTN 1 2 NTN NTN NTN R NTN NTN Ca C CP fl non!d@non # n /n @ d! # fl C P nof n fl NTN NTN NTN d dmp Vdp Vdmp Kia Sd Sia Bs 1 12 1 2 2 12 12 12 12 1 2 2 12 12 1 2 2 1
More informationCONTENTS
-Enumerative Combinatorics - July 31, 2006 CONTENTS CONTENTS e 1. A. B. C. D. 2. a, b, c (ab)c a(bc) (ab)c a(bc) a, b, c, d ((ab)c)d (a(bc))d a((bc)d) a(b(cd)) (ab)(cd) 3. (Catalan number) C n = n C 1
More informationA1304T-…K…C…h
A1304T 2 A1304T A1304T A1304T 3 23 63 41 57 4 LN Zb Zz 29 @? Zb Zz 32 5 PO 14 <
More information2 1 2 1 5 2 6 7 3 8 4 9 1 2 4 5 6 3 3 4 5 6 1 2 3 1 2 3 4 1 2 3 7 1 2 3 4 5 8 9 M6 M6 M4 M1 M5 M2 M4 M1 M5 M2 M3 M3 M6 M1 M2 M6 M2 M4 M5 M4 M5 M3 M3 M6 M1 M5 M2 M6 M4 M1 M5 M2 M4 M3 M3 10 11 12 1 1 2 2
More informationF
F F F QF Y M PAI MQ P A Q F P Q F P M P Q F P Q F P Q F P Q F P I Q F P A I M F PNAIYMQ RX Y M F A Q F P A I M F A Q F M PM I P Q F QF M F I A I PNAIYMQ RX F Q P A I M F P A I M F A A M A M A M F Q F
More information1 θ i (1) A B θ ( ) A = B = sin 3θ = sin θ (A B sin 2 θ) ( ) 1 2 π 3 < = θ < = 2 π 3 Ax Bx3 = 1 2 θ = π sin θ (2) a b c θ sin 5θ = sin θ f(sin 2 θ) 2
θ i ) AB θ ) A = B = sin θ = sin θ A B sin θ) ) < = θ < = Ax Bx = θ = sin θ ) abc θ sin 5θ = sin θ fsin θ) fx) = ax bx c ) cos 5 i sin 5 ) 5 ) αβ α iβ) 5 α 4 β α β β 5 ) a = b = c = ) fx) = 0 x x = x =
More information() x + y + y + x dy dx = 0 () dy + xy = x dx y + x y ( 5) ( s55906) 0.7. (). 5 (). ( 6) ( s6590) 0.8 m n. 0.9 n n A. ( 6) ( s6590) f A (λ) = det(a λi)
0. A A = 4 IC () det A () A () x + y + z = x y z X Y Z = A x y z ( 5) ( s5590) 0. a + b + c b c () a a + b + c c a b a + b + c 0 a b c () a 0 c b b c 0 a c b a 0 0. A A = 7 5 4 5 0 ( 5) ( s5590) () A ()
More informationPart () () Γ Part ,
Contents a 6 6 6 6 6 6 6 7 7. 8.. 8.. 8.3. 8 Part. 9. 9.. 9.. 3. 3.. 3.. 3 4. 5 4.. 5 4.. 9 4.3. 3 Part. 6 5. () 6 5.. () 7 5.. 9 5.3. Γ 3 6. 3 6.. 3 6.. 3 6.3. 33 Part 3. 34 7. 34 7.. 34 7.. 34 8. 35
More information1
1 100 50/60Hz 100 50/60Hz 2 3 4 Windows 4.0SP3 Windows98 4.0SP3 800600 256 1024768 SETUP.EXE 5 [ ] 6 [ OK] [ ] 7 [ OK] [ ] 8 [ OK] [ ] 9 [ ] [ ] [ ] Enter Enter Windows Alt MP-60 10 [ ] F4 [ ] [ ] [ ]
More information当社は エキゾーストシステムの専門メーカーとして長年の経験と実績にもとづき エキゾーストシステムにかかわる多種多様の製品を製造 販売しております 既存の製品のほか 図面またはサンプルをご提供いただけましたら 特注品の製作も 1 本より承っております 軽自動車から大型トラック 補修部品の供給がなくなっ
当社は エキゾーストシステムの専門メーカーとして長年の経験と実績にもとづき エキゾーストシステムにかかわる多種多様の製品を製造 販売しております 既存の製品のほか 図面またはサンプルをご提供いただけましたら 特注品の製作も 1 本より承っております 軽自動車から大型トラック 補修部品の供給がなくなってしまったクラシックカー産業機械等あらゆる車に対応しております 純正相当の優良商品も多種類在庫しておりますのでお問い合わせください
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 information橡実験IIINMR.PDF
(NMR) 0 (NMR) 2µH hω ω 1 h 2 1 1-1 NMR NMR h I µ = γµ N 1-2 1 H 19 F Ne µ = Neh 2mc ( 1) N 2 ( ) I =1/2 I =3/2 I z =+1/2 I z = 1/2 γh H>0 2µH H=0 µh I z =+3/2 I z =+1/2 I z = 1/2 I z = 3/2 γh H>0 2µH H=0
More information4.6: 3 sin 5 sin θ θ t θ 2t θ 4t : sin ωt ω sin θ θ ωt sin ωt 1 ω ω [rad/sec] 1 [sec] ω[rad] [rad/sec] 5.3 ω [rad/sec] 5.7: 2t 4t sin 2t sin 4t
1 1.1 sin 2π [rad] 3 ft 3 sin 2t π 4 3.1 2 1.1: sin θ 2.2 sin θ ft t t [sec] t sin 2t π 4 [rad] sin 3.1 3 sin θ θ t θ 2t π 4 3.2 3.1 3.4 3.4: 2.2: sin θ θ θ [rad] 2.3 0 [rad] 4 sin θ sin 2t π 4 sin 1 1
More information2
2 3 4 5 90,000 102,000 130,600 142,400 155,000 184,000 197,800 210,400 254,600 129,500 146,600 188,800 205,600 223,600 266,400 286,200 304,200 368,900 162,400 184,600 237,800 259,100 282,500 336,500 361,700
More informationuntitled
Unit 4. n 1 = n 1 ex[i(k x ωt + δ n )] n 1 : k: k = π/λ δ n : k = kxˆ, δ n = n 1 = n 1 os(k x x ωt) v = ω k k k Re(ω) > Im(ω) > Im(ω) < Im(k) E 1 = E 1 ex[i( k x - ωt)] E 1 : + v g ω ω ω ω = = xˆ + yˆ
More information2.5 (Gauss) (flux) v(r)( ) S n S v n v n (1) v n S = v n S = v S, n S S. n n S v S v Minoru TANAKA (Osaka Univ.) I(2012), Sec p. 1/30
2.5 (Gauss) 2.5.1 (flux) v(r)( ) n v n v n (1) v n = v n = v, n. n n v v I(2012), ec. 2. 5 p. 1/30 i (2) lim v(r i ) i = v(r) d. i 0 i (flux) I(2012), ec. 2. 5 p. 2/30 2.5.2 ( ) ( ) q 1 r 2 E 2 q r 1 E
More informationプラズマ核融合学会誌1月【83-2】/講座2-3
2.3 Plasma Flow Measurements Spectroscopic Methods KADO Shinichiro author s e-mail: kado@q.t.u-tokyo.ac.jp Czerny-Turner GN: grating normalmn: mount normalfn: facet normal. f L L Fig. 3 μ μ in-situ μ
More informationA Study of Adaptive Array Implimentation for mobile comunication in cellular system GD133
A Study of Adaptive Array Implimentation for mobile comunication in cellular system 15 1 31 01GD133 LSI DSP CMA 10km/s i 1 1 2 LS-CMA 5 2.1 CMA... 5 2.1.1... 5 2.1.2... 7 2.1.3... 10 2.2 LS-CMA... 13 2.2.1...
More informationJ.qxd
IQ 2 I/Q IQ IQ IQ IQ 3 IQ 4 5 6 I Q 7 IQ 0 deg 8 IQ I QI I Q Q Q Q { I Q { I I 9 I/QI/QI/Q IQ IQ I/Q Q Σ I IQ I Q 10 I/Q I/Q I/Q IQ IQ 11 π 12 01 00 11 10 13 I/Q I QI I/Q IQ 14 π QI π I/QI Q IQ IQ π 15
More information5. F(, 0) = = 4 = 4 O = 4 =. ( = = 4 ) = 4 ( 4 ), 0 = 4 4 O 4 = 4. () = 8 () = 4
... A F F l F l F(p, 0) = p p > 0 l p 0 P(, ) H P(, ) P l PH F PF = PH PF = PH p O p ( p) + = { ( p)} = 4p l = 4p (p 0) F(p, 0) = p O 3 5 5. F(, 0) = = 4 = 4 O = 4 =. ( = = 4 ) = 4 ( 4 ), 0 = 4 4 O 4 =
More informationZ: Q: R: C: 3. Green Cauchy
7 Z: Q: R: C: 3. Green.............................. 3.............................. 5.3................................. 6.4 Cauchy..................... 6.5 Taylor..........................6...............................
More informationindb
2010 203 1. 1 2010 p. 15 204 2 2. 1 50 2007 4 2 1 18 20 2007 205 1 3 2 1950 2007 1955 p. 28 SF 2007 2 4 3 73 2007 1 SEX 206 2007 72 3 5 4 77 3 J 1989 J WAVE 2005a J J 1983 1979 6 5 2007 4 93 80 4 5 207
More information,. Black-Scholes u t t, x c u 0 t, x x u t t, x c u t, x x u t t, x + σ x u t, x + rx ut, x rux, t 0 x x,,.,. Step 3, 7,,, Step 6., Step 4,. Step 5,,.
9 α ν β Ξ ξ Γ γ o δ Π π ε ρ ζ Σ σ η τ Θ θ Υ υ ι Φ φ κ χ Λ λ Ψ ψ µ Ω ω Def, Prop, Th, Lem, Note, Remark, Ex,, Proof, R, N, Q, C [a, b {x R : a x b} : a, b {x R : a < x < b} : [a, b {x R : a x < b} : a,
More informationOLT-SW NTT QoS QoS
OLT-SW NTT QoS QoS QoS QoS IP IP QoS QoS NTT2 P-CSCF SIP IP 1 1 1 11 7,8,9,10 12 14 13 15 15 16 18 1 19 IP050/0AB-JNTT_NGN IPNTTPSTN)NTT_NGN IPNTT_NGN IPNTT_NGN NGN NGN 1 2 3 4 5 ZAIP-IP/MG 6 7 8 IGSNGN_MG
More informationrouter_2011_feb
INFORMATION 0. RT50i RTV0 P 0 P 04 P 05 P 06 P 08 P 09 P 0 P P 4 P 8 RT50i YBA-PRI-MC YBA-8BRI-STC YMS-VPN7 / YMS-VPN7-LP0 / YMS-VPN-CP0 / YMS-VPN-CP0 / YMS-VPN-CP50 / YMS-VPN-CP00 SWX00-8G / RTV0 YRK-00
More informationŁ\”ƒ2001B
d h H720D700 530 458 9.505.340.18 H720D900 530 658 9.505.342.18 H750D700 560 458 9.505.341.18 H750D900 560 658 9.505.343.18 h W H=720 530 540 9.505.344.18 H=750 560 540 9.505.380.18 H=720 530 1110 9.505.347.18
More informationuntitled
Y U Z A T O W N P U B L I C R E L A T I O N S 1300 1310 1330 61312006141200 6141300 612 10001530 1 200961 2 1127 200961 3 w r e q i!0 o u 200961 4 t y!3 1725880 5 200961!4!1!2 200961 6 Youth President's
More informationn ( (
1 2 27 6 1 1 m-mat@mathscihiroshima-uacjp 2 http://wwwmathscihiroshima-uacjp/~m-mat/teach/teachhtml 2 1 3 11 3 111 3 112 4 113 n 4 114 5 115 5 12 7 121 7 122 9 123 11 124 11 125 12 126 2 2 13 127 15 128
More informationA1304TII†^Œ{“û
/A1304T N45 z z z z N45 z z z z zz )" Zz f e R N N21 N22 N23 O? NO N45 b % % " " N24 N31 N32 z ,$ ,$
More information1 2 2 (Dielecrics) Maxwell ( ) D H
2003.02.13 1 2 2 (Dielecrics) 4 2.1... 4 2.2... 5 2.3... 6 2.4... 6 3 Maxwell ( ) 9 3.1... 9 3.2 D H... 11 3.3... 13 4 14 4.1... 14 4.2... 14 4.3... 17 4.4... 19 5 22 6 THz 24 6.1... 24 6.2... 25 7 26
More informationA1304T†^Œ{“û
A1304T N45 z z z z N45 z z z z zz )" Zz f e R N N21 N22 N23 O? NO N45 b % % " " N24 N31 N32 z ,$ ,$
More informationRadiation from moving charges#1 Liénard-Wiechert potential Yuji Chinone 1 Maxwell Maxwell MKS E (x, t) + B (x, t) t = 0 (1) B (x, t) = 0 (2) B (x, t)
Radiation from moving harges# Liénard-Wiehert potential Yuji Chinone Maxwell Maxwell MKS E x, t + B x, t = B x, t = B x, t E x, t = µ j x, t 3 E x, t = ε ρ x, t 4 ε µ ε µ = E B ρ j A x, t φ x, t A x, t
More information5 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
More information32 100 34 51 16,300
32 100 34 51 16,300 - 7 - - 1 2 3 4 5 6 7 8 9 10 11 12 1 2 3 4 5 6 7 8 9 10 11 12 1 1 3 3 5 5 B 6 2 2 4 4 6 10 - - 8 - - - 9 - 20 80 1/3 - - 10 - 0.7 0.9kg 21 147 70-11 - - 50 10cm 50 100 30cm kg 100
More informationuntitled
- 1 - - 2 - OFF - 3 - 18-4 - - 5 - - 6 - (1) (2) No 1 0099240130 CL-10 2 0099240040 CL-3-7 - - 8 - 50Hz 250 / - 9 - 6. 1 6. 2 R 6. 3 V 6. 4 R - 10 - 6. 5 6. 6 6. 7-11 - 6. 8 500mm 6. 9 4. 6. 10-12 - 6.
More informationd dt P = d ( ) dv G M vg = F M = F (4.1) dt dt M v G P = M v G F (4.1) d dt H G = M G (4.2) H G M G Z K O I z R R O J x k i O P r! j Y y O -
44 4 4.1 d P = d dv M v = F M = F 4.1 M v P = M v F 4.1 d H = M 4.2 H M Z K I z R R J x k i P r! j Y y - XY Z I, J, K -xyz i, j, k P R = R + r 4.3 X Fig. 4.1 Fig. 4.1 ω P [ ] d d = + ω 4.4 [ ] 4 45 4.3
More information42 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リニアガイドウェイ 目次 1.1 リニアガイドウェイの構造 技術解説 リニアガイドウェイの呼び番号 A リニアガイドウェイの構造 A 呼び番号 A 1 (1) 形式と内容 A 1 (2) ブロックの種類 A 2 (3) 荷重記号 A 2 (4) ブロック取付記号 A 2
目次 1.1 の構造 技術解説 の A 1 1. 1 の構造 A 1 1. 2 A 1 (1) と A 1 (2) ブロックの種類 A 2 (3) 荷重記号 A 2 (4) ブロック取付記号 A 2 (5) ブロック特殊加工記号 A 2 (6) レール取付記号 A 2 (7) レール特殊加工記号 A 3 (8) 与圧記号 A 3 (9) 精度記号 A 3 (10) 軸数記号 A 3 (11) 防塵シール記号
More information1 12 ( )150 ( ( ) ) x M x 0 1 M 2 5x 2 + 4x + 3 x 2 1 M x M 2 1 M x (x + 1) 2 (1) x 2 + x + 1 M (2) 1 3 M (3) x 4 +
( )5 ( ( ) ) 4 6 7 9 M M 5 + 4 + M + M M + ( + ) () + + M () M () 4 + + M a b y = a + b a > () a b () y V a () V a b V n f() = n k= k k () < f() = log( ) t dt log () n+ (i) dt t (n + ) (ii) < t dt n+ n
More informationS114-CA701A-JA-P
Bulletin 100S/104S SGI-1.1! S114-CA001A-EN-P 100S/104S S114-CA001A-EN-P Allen-Bradley Rockwell Automation EC ( ) CE (EU) EFA EMC 89/336 (EMC) EN 50081-2 EMC 2 - EN 50082-2 EMC 2 - EN 6113-12 2 73/23/EECEN
More information( ) ( ) 1729 (, 2016:17) = = (1) 1 1
1729 1 2016 10 28 1 1729 1111 1111 1729 (1887 1920) (1877 1947) 1729 (, 2016:17) 12 3 1728 9 3 729 1729 = 12 3 + 1 3 = 10 3 + 9 3 (1) 1 1 2 1729 1729 19 13 7 = 1729 = 12 3 + 1 3 = 10 3 + 9 3 13 7 = 91
More information0 5 15
18 2006 6 20 2007SDR 0 5 15 846Gal 434Gal 406 325 325 20042317560 P S 0 2 4 6 8 km P 2.9 P 3.9 3.9 S 5.9 P 3.3 P 3.9 3.9 S 6.4 P 3.5 P 4.5 S 6.7 13km 846Gal 434Gal 406 325 325 20042317560 P S 0 2 4 6 8
More informationQMI_09.dvi
63 6 6.1 6.1.1 6.1 V 0 > 0 V ) = 0 < a) V 0 a a ) 0 a0 Ct) Ct) = e iωt ω = Ē h 6.2) ω 64 6 1 1 2 2m 1 k d
More informationuntitled
1 ( 12 11 44 7 20 10 10 1 1 ( ( 2 10 46 11 10 10 5 8 3 2 6 9 47 2 3 48 4 2 2 ( 97 12 ) 97 12 -Spencer modulus moduli (modulus of elasticity) modulus (le) module modulus module 4 b θ a q φ p 1: 3 (le) module
More informationchap03.dvi
99 3 (Coriolis) cm m (free surface wave) 3.1 Φ 2.5 (2.25) Φ 100 3 r =(x, y, z) x y z F (x, y, z, t) =0 ( DF ) Dt = t + Φ F =0 onf =0. (3.1) n = F/ F (3.1) F n Φ = Φ n = 1 F F t Vn on F = 0 (3.2) Φ (3.1)
More informationVI VI.21 W 1,..., W r V W 1,..., W r W W r = {v v r v i W i (1 i r)} V = W W r V W 1,..., W r V W 1,..., W r V = W 1 W
3 30 5 VI VI. W,..., W r V W,..., W r W + + W r = {v + + v r v W ( r)} V = W + + W r V W,..., W r V W,..., W r V = W W r () V = W W r () W (W + + W + W + + W r ) = {0} () dm V = dm W + + dm W r VI. f n
More information橡jisq1500.PDF
JIS Q 15001 JIS Q 15001 105-0011 - - 03-3432-9387 Fax 03-3432-9417 E-mail info-privacy@jipdec.or.jp JIS Q 15001 107-8440 - - 03-3583-8002 Fax 03-3583-0462 JIS Q 15001 : 1999 Requirements for compliance
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 informationD = [a, b] [c, d] D ij P ij (ξ ij, η ij ) f S(f,, {P ij }) S(f,, {P ij }) = = k m i=1 j=1 m n f(ξ ij, η ij )(x i x i 1 )(y j y j 1 ) = i=1 j
6 6.. [, b] [, d] ij P ij ξ ij, η ij f Sf,, {P ij } Sf,, {P ij } k m i j m fξ ij, η ij i i j j i j i m i j k i i j j m i i j j k i i j j kb d {P ij } lim Sf,, {P ij} kb d f, k [, b] [, d] f, d kb d 6..
More informationNVA-HD1680DT
NVA-HD1680DT v z m qu m L L L L L t t r e w _ _ z z z z z z z zz z z z z z z z z z zz z z z z z z z z z 1 z 3 1.. 1 1 1.. 1 tc 1 J v m 1 v z z z z z z z 1 3 4 7 8 9 9 7 1 5
More information1 509 12kg 1 ( ) L 9/19 6 00 SA8 20---8 30 PA10 30 IC12 30 12 40 13 12 14 00 15 40 9/20 4 00--- 5 30--- 6 20 7 00-8 00---8 15 9 20 7 9 45---10 00 10 40--- 11 00 11 45---11 55 12 20---12 35 13 20 14 40
More information(1) (2) (1) (2) 2 3 {a n } a 2 + a 4 + a a n S n S n = n = S n
. 99 () 0 0 0 () 0 00 0 350 300 () 5 0 () 3 {a n } a + a 4 + a 6 + + a 40 30 53 47 77 95 30 83 4 n S n S n = n = S n 303 9 k d 9 45 k =, d = 99 a d n a n d n a n = a + (n )d a n a n S n S n = n(a + a n
More informationCV CV CV --
30 4 30 0 30 60 V/Hz V/Hz CV CV -- CV CV CV -- CV 3 AVR -3- 5m/ 0.5G 3m/ 0.3G 3 0.5Hz 0Hz 0.5Hz 0Hz 3 54kV 3 5 m/ 0.5G 3 3 5m/ 0.5G -4- V & bc 0.0VPT Z & G Z & L V& bc Z & L j0.50 0.0 0.0 5.7 V Z & + Z
More informationC: PC H19 A5 2.BUN Ohm s law
C: PC H19 A5 2.BUN 19 8 6 3 19 3.1........................... 19 3.2 Ohm s law.................... 21 3.3.......................... 24 4 26 4.1................................. 26 4.2.................................
More informationMarch 4, R R R- R R
March 4, 2016 1. R- 2 1.1. R- 2 1.2. R- R- 4 1.3. R- 5 2. 6 2.1. 6 2.2. 6 2.3. 6 2.4. 7 3. 8 3.1. 8 3.2. 8 4. 10 4.1. 10 4.2. 10 4.3. 10 5. 12 5.1. 12 5.2. 14 6. Hom 14 6.1. Hom 14 6.2. Hom 15 6.3. Hom
More informationサポートWeb第3版 発行.pmd
12345678901234567890123456789012123456789012 12345678901234567890123456789012123456789012 12345678901234567890123456789012123456789012 12345678901234567890123456789012123456789012 12345678901234567890123456789012123456789012
More informationファインフレックス ルビール
1 2 3 1300 1300 4 1300 1300-5 - 6 7 8 9 10 11 12 15 16 17 18 19 20 21 22 23 24 25 26 27 -N -Z -Z -Z -Z -T TM TM TM D TM H RF H RF LD LD RF MD MD UD HD RF RF RF H H RM 1 TOMBO No. 5100/5200/5300 JIS A /
More information