S I. dy fx x fx y fx + C 3 C dy fx 4 x, y dy v C xt y C v e kt k > xt yt gt [ v dt dt v e kt xt v e kt + C k x v + C C k xt v k 3 r r + dr e kt S dt d
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- さあしゃ おおばま
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1 S I.. /TeX/lecture.html PDF PS Laplace Laplace s t x yx y y, y,, y n F x, y, y, y,, y n n yx n n
2 S I. dy fx x fx y fx + C 3 C dy fx 4 x, y dy v C xt y C v e kt k > xt yt gt [ v dt dt v e kt xt v e kt + C k x v + C C k xt v k 3 r r + dr e kt S dt d dt v k e kt } k v k e kt v e kt x± lim xt k < t ± v k g vt yt [ dv dt g dy dt vt vt vt gt + C yt yt gt + Ct + C Sr πr [ S ds πrdr Sr ds πrdr πr + C S C S πr
3 S I 3 r r + dr V V r 4πr x x x + U Ux 3 λ x x + l m 4 σ r r + dr a M I Ma N [ Nt dn dt dn dt kn dn kdt N log N kt + C N C exp[ kt N N C N N N exp[ kt k log T [ Nt N exp log T t.. dy fx gy 5 x fx y gy gydy fx 6 y x gydy fx + C 7 4 T 5 Lambert x Ix 5 m v Stokes [ Newton m v f m dv mg kv dt k dv mg k v mg log k v v C exp k m dt k m t + C km t + mg k
4 S I 4 v vt mg exp km } k t v mg k η a k 6πηa ρ m 4πρa 3 /3 v mg/k ρga /9η a Âv /e -exp-.5*x 4 6 8» t v v vt v 7 v v yt 8 v v vt v g v v 9 Newton T T t T w T 6 v vt [ Newton G M dv dt MG r g r g MG dv dt dr dv dt dr v dv dr Âv [km v dv dr g r v g + C r r v v v g r v ± g + v g r + v µ r/ : ½.. r v r v r v k
5 S I 5 g > v v > g v > v rt r u ρ du u g u u dt u v ξ g i ξ > v < g v T gξ t [ ρ + tan ρξ ξ ρξ + tan ξ ξ ξ F ρ gξ t gξ T F ρ ii ξ»t [sec e+8 e+7 e+6 e+5 e+4 e+3.9 g t ρ 3 e+ e+ e+ e+ e+3 e+4 µ r/.9999 cx 3/ r t g v rt 7 l λ l x xt g v x x l ± ¹ [ xt vx vx xt dv dt v dv λ l dv dt λl + xg λl xg λgx vx v dv g l x. v, x v g l x + C t x x, v C g dt v l x x l g log x + x x t + C x C l g log x + x x t x
6 S I 6 x g e l t + e g x x g l l t x cosh g l t hyperbolic cosh t sinh t + d d cosh t sinh t, dt dt x sinh t sinh t cosh t dt v x x x cosh t x x cosh t x sinh t 8 A + B C C x A B a b C [ C A B k kdt dt a xb x ka xb x a x b x b a kt + C a x a b log b x a x b x C e µt µ a b k xt v dv dv dt x cosh t g l x x C a/b x x ab eµt e µt ae µt be µt. T T [ x x T x λ l g l λ l x xt T x [ xt T x T x λ x xg l 3 r k » t k.5 k. k. k.5 3 C a., b.9 a > b µ > x b, ẋ a b 4 A X A X X
7 Ë / S I 7 xt A a X x A X A X k, k 9 x t x s kx k [ dt dt s kxx s kxx x + k s kx s t + C } log x logs kx s s log x s kx C e st x s kx x se st C + ke st s < x C + k < s k.5.5 C e- - C e C S a yt y H [ dt dv avdt v Torricelli v gy dt dv a gy dt dv dv Sdy dv dv a gydt Sdy S y t + C a g y H C S a g yt ga S S y a S a H g t H g t t t C e C e » 4 k, s A B A B t » 5
8 S I 8 5 a yt yt n C k + n k n ekαt n kekαt e kαt + I α tanh Iαt tanhx tanh± ± y y 6 y ry yt t ry ytanhx x 7 w H ht g [ ht t + H 3π w gh h n αn α I dn dt I αn nt [ k I/α αdt dn k n k k + n + k n log k + n k n kαt + C k + n k n C e kαt 6 y - tanhx 8 rt 3 cm.5cm 9 Stephan-Boltzmann T T e 4 Boltzmann k Mc dt dt kst 4 T 4 e M c S t T t [ T t T e Boyle Mariotte V p V/p
9 S I 9 ²T Te.8Te.6Te.4Te.Te » t i σ E i + ρ/ t E ρ/ε σ 7 Ω m i log x + a x + a ii x + a a arctan x a a iii x a a log x a x + a a iv a x arcsin x a arccos x a > a x v x + a log + x + a vi ax + bx + c b 4ac log ax + b b 4ac ax + b + b 4ac 4ac b arctan ax + b 4ac b b 4ac>.3 dy y f x 8 u y x, u x du log x fu u + C 9 u y y x x P l O v v B O [ O OP x y Px, y OP x θ dt v B cos θ, dy dt v v B sin θ dy v B sin θ v v B cos θ r x + y, x r cos θ, y r sin θ dy y β x + y β v x v B log x y ux u + x du u β + u du β + u β log u + + u + C x l y u C log l β log x log u + + u l ax + b b 4ac< b 4ac x l β u + + u x } β u + u l u x β x } β l l
10 S I.5 y l x β x } +β l l.5 À. θ r l c l l θ r tan + π β cos θ 4 x r cos θ β l θ tan x + π 4 β l tan θ x + tan θ + tan θ tan θ tan θ β } β l l x x y x tan θ t x v v B l 7 v B > v β < O v v B O v B < v l β > x x β y dr dt v B + v sin θ r dθ dt v r cos θ dr dr rdθ dt r dθ dt rθ dr r vb v cos θ tan θ log r v B v log tan θ + π 4 log cos θ + log c.5.5 β.8 β.5 β
11 S I [ t x t l x β+ v B β l β x } +β + β l.4 x px, qx y y β β l 3 yx 4 L 5 i y xy ii 6yy + 9x iii y + y iv y + x + y v x + yy λy vi xy x + y vii xy y x 3 + y viii y y + x y x L[ y dy + pxy qx qx y ce px cwx c x ux u du du wx qx qx wx qx u + c wx Lagrange qx } y e px qx e px + C + 3 A λa B λb C A, B, C N A,, B n B t [ B A λ A C λ B dn B λ A n A t λ B n B t dt dn B + λ B n B t λ A n A t dt n A t λ A n A N A n A dt λ an A n A t N A e λ At e ± px e ± λ B dt e ±λ Bt
12 ÊB S I n B t e λ Bt } λ A N A e λat e λbt dt + C } e λ λa N Bt A e λ B λ A t + C λ B λ A n B C n B t e λ λ Bt A N } A e λ B λ A t λ B λ A λ AN A λ B λ A e λ A t e λ Bt } λ.99 B e λ Bt λ.5 B 4 6 8» λ. B λ A λ. B i Et E } It e t E L e t + C ii Et E sin t } It e t E e t sin t dt + C L Ce t + E L + Ce t + E sin t cos t I i Et E It E e t ii Et E sin t } E It L e + t + sin t cos t..5 9 A B C B Å[A 6 g v 4 L L Et It Et E Et E sin t [ L di di + I Et dt dt + L I L Et Et } It e t Et L e t dt + C, L Et » [s L L H, Ω, Hz, E 5 V
13 S I 3 ON Θt t < t > Dirac. δx x,. δx afx fa δx Laplace 7 C C Et It Et E Et E sin t 8 C C It Q 9 Bernoulli dy + pxy qxyn v y n dv n pxv n qx vx.5 c F x, y, c xy c c parameter F x, y, z x +y c c c c y x y F x, y, c y fx, y 3 y fx, y 4 5 xy q [ V r q xy 4πε r q c 4πε x + y c q x + yy y x 4πε x + y 3 y fx, y
14 S I 4 y fx, y y x y cx 3 λ P,, Q, y + x + } 4x c 3 λ 3 +λ, λ P,, Q, x + c + y c 3
15 S I 5 Laplace Laplace. Laplace y n + a y n + + a n y + a n y fx 5 Laplace y yt L [ y sl [ y y s L [ y sy y i L [ y i s i L [ y s i j y j j 5 Laplace [ n L a i y n i L [ f i n a i s i L [ y n a i i i j L [ f + L [ y n a i i j i s i j y j i s i j y j n a i s i i s y L [ L [ y.. fx s F s e st ft dt 6 ft Laplace L [ y y [ e st y dt e st y +s e st y dt 7 lim t e st yt s > 8 yt 7 e st y dt y + s e st y dt ft [ L [ s e st dt s [ e st 7 ft e at [ L [ e at e st e at dt [ e s at s a s a L [ y sl [ y y
16 S I 6. Laplace s y ft Laplace I F s s s > t n n : n! s n+ s > 3 t x x > Γ x + s x+ x > 4 e at s a s > a 5 cos t s s + s > 6 sin t 7 cosh t 8 sinh t s + s > s s s > s s > 9 t n e at n! s a n+ s > a e at cos t e at sin t t cos t 3 t sin t s a s a + s > a s a + s > a s s + s s a i L [ cos t L [ cos t [ 4 a i L [ e it s i s + i s + s s + + i s + Laplace L [ e it L [ cos t + i sin t L [ cos t + il [ sin t 33 z a + i L [ e zt s z 34 L [ cosh t L [ sinh t y ky [ sl [ y y + kl [ y L [ y y s + k s + k e kt [ y L y ye kt s + k y ky + b y + ky e t y + y [ s L [ y sy y + L [ y L [ y sy + y s + s sin t + s s cos t yt y cos t + y y y sin t y + y cosωt 5,6
17 S I 7 y + P y + Qy ft P Q 3 ft ft 3 Laplace [ Laplace L [ y sy + P y + y s + sp + Q 4 gs s + sp + Q i gs gs s β s β L [ y sy + P y + y gs A s β + A s β A β y + P y + y β β A β y + P y + y β β yt A e βt + A e βt β P, Q ii gs s + P s Q gs ss + P L [ y sy + P y + y gs B s + P + B s B y P B y + y P yt y P e P t + y + y P P.. 3 Γ p Γ Γ p Γ p + u p e u u p > e u du u p e u du [ u p e u + p pγ p p n u p e u du Γ n + nγ n nn Γ n nn Γ n! ft t x L [ t x e st t x dt st u u x s x e u s du Γ x + s x+.3 s x+ u x e u du.3. f t f t α, β L [ αf t + βf t αl [ f t + βl [ f t 5 L [ [ L [ αf t + βf t
18 S I 8 α e st αf t + βf t } dt e st f t dt + β αl [ f t + βl [ f t e st f t dt.3.4 t ft a ft-a t t Θ t-a Θ t-a ft-a.3. a a ft F s L [ f s s ft [ t L f d s L [ ft [ ft gt t f d L [ ft L [ g t sl [ gt g g... L [ f sl [ g.3.3 s ft F s e at ft L [ e at ft F s a e st e at ft dt e s at ft dt F s a s s a s F s a s F s 39 L [ e at ft F s a 6 9 s 4 t t s F s s s a ft e at ft t t a F s e as t a < t a ft Θ a t t < a Θ a t Θt a t > a ft t ft L [ Θt aft a e as F s 7 3 t [ L [ Θt aft a t a a e st Θt aft a dt e st a sa ft adt e sa e s f d e sa F s 4 Θ a t [ ft t s L [ Θ a t L [ Θ a t e sa L [ e sa s t
19 Ê S I 9 5 L L t a E It [ Et Θ a te L di dt + I Θ ate di dt + L I Θ at E L sl [ I I + L L [ I E L I e as e as s L L [ I E L s + s E e as L s s + E } e as e as s s + } L s s + e t t It E } e t a Θ a t It E } e t t a [ Y L [ y s Y + 4sY + 3Y s e s Y Y e s ss + s + 3 e s F s /3 F s s / s + + /6 } s + 3 ft L [ F s 3 e t + 6 e 3t t L [ e s F s ft Θ t yt L [ Y ft ft Θ t 3 e t + 6 e 3t t < e e t 6 e3 e 3t < t. 5 4 L It Et V y. a b t 3» t 5 6 y + 4y + 3y gt, y, y gt Θ t Θ t.4 t > p ft + p ft t
20 S I p ft L [ f p e st ft dt e st f dt + p e st f dt + 3p p p e st f dt + k e as s e as + e as k e as s + e as k as tanh s t + p 3 t + p n t + n p p f + p f, f + p f, L [ f p e st f d + p + p e st f d + + e sp + e sp + e st f d p e st f d e ps ft p 7 L [ f e ps p e st ft dt 8 k ft a a 3a -k t 6 [ p a 8 L [ f e as e as e as a e st ft dt a a } ke st dt + ke st dt a k s e as + k } s e as e as
21 S I 4 i k ft a ii sin t k ft 4a t π/ π/ 3π/ 4π/ iii sin t k ft π/ π/ 3π/ 4π/ t t k as tanh as k s + e sπ/ k + e sπ s + e sπ/ 8 L V -V vt T T 3T t vt [ vt it + L di dt V s Is + LsIs i} Is i s + + V s s + L, L Is i t t ie t t V s V e T s s + e T s V s s + L V L V L e T s ss + + e T s } s e T s s + e T s L V L V L } s s + e T s e T s n n } s s + n e nt s e n n+t s} gs s s + ht e t t gse nt s ht nt Θt nt i t V n ht nt Θt nt n ht n+t Θt n+t } t N NT t N + T Θt nt i t V N n ht nt ht n+t } n + V N ht NT N V e T n e t T e n V e t T e T N e e T V e T e t e T N e t NT } + ξ t NT ξ T i ξ V e T e ξ + NT e T + N V + N V e T e T + } e ξ e ξ M i s ξ i s ξ N V [ e ξ e T e T + e ξ N V [ e T e T + e ξ 7 T.,. T.,. L
22 S I L Å Å -.5 ½ Ä » ½ Ä. 4 + e ξ e } ξ T Θξ T V [ T e e T + e ξ V [ e T e T + e ξ T ξ < T T ξ < T ii C V C t it V it + + sint nπ + β n [ exp t n π } Θ t n π + sin β, + cos β » T.., i s t t Å Å T MT T M + T T T i t V M n ht nt ht n+t } + V V n [ ht MT ht M +T Θt M +T e T e T + e t e t MT } ξ t MT ξ T i s ξ V [ e T e T + e ξ »..5 V 4 C vt it + it dt di C dt + i C dv dt Laplace v i L [ i Is sv s s + C
23 S I 3 Laplace V s V s Is s + s + e πs V s e πs s + s } s + V e πs + s s + V e πs + s + V e πs + s + V + s + + it V + + cos t n π V s + e πs s s } s s + } s s + + s s + + s + + s s + n s + } s s + } n sin t n π e t n π } Θ e πs n t n π M π t < M + π M n M n M sint nπ + β sint + β n cos nπ sint + β + + e t n π e t M e n π n e t e M+π t e π + it V + sint + β Θ t M + π e t e M+π t e π } + e ξ t M π M+π t Θ t M + π } + iξ V + sinξ + β Θ ξ π } e ξ e Mπ e ξ π e π + e ξ π Θ ξ π } M + i s ξ V + sinξ + β Θ ξ π } e ξ π ξ e π + Θ π } + e ξ sinξ + β e ξ e π e π e π e π ξ < π π ξ < π v c ξ vξ i s ξ V sinξ Θ ξ π } i s ξ i ξ < π ii V V sinξ sinξ + β + + V + V + sinξ γ + + sin γ cos γ +, π ξ < π V + e π e π e e π e π e π e π e e + ξ ξ ξ }
24 S I 4 ii i i ξ + fξ cosξ γ e π ξ e π e ξ < π fξ ξ ξ ξ v c ξ v c ξ fξ i ii V V π π π 3 3. fx x fx T fx x T fx T T Å.4... Å » 9.. V T T Å ».. V Fourier Å n 9 fx + nt fx x 3 T 3T 4T fx fx gx T hx αfx + βgx 3 T [ n fx + nt fx + n T + T fx + n T fx + n T fx
25 S I 5 fx gx T hx + T αfx + T + βgx + T αfx + βgx hx hx T 43 fx x T fax a T/a sinx cosx fx a + a cos π T x + b sin π T x + a cos 4π T x + b sin 4π T x + a k cos kπ T x + k k a k sin kπ T x 3 a n b n T T/k T/k T i iv vi / π i fx ii fx iii fx x < x < < x < π cos x < x < < x < π π + x < x < π x < x < π iv fx x < x < π n,,, 3, sin nx / ii x sin nx e x sin nx v vii cos nx / / iii x cos nx e x cos nx x sin nx 3. T π fx a + a k cos kx + b k sin kx 33 k fx a k b k a 33 π fx [ a + a k cos kx + b k sin kx a + k k a k cos kx + b k sin kx πa + a π fx k cos kx sin kx a b j 33 cos jx π fx cos jx [ a + a k cos kx + b k sin kx cos jx 35 k a cos jx + [a k cos kx cos jx a j π a j π k b k sin kx cos jx fx cos jx j,, 36 b, b, 33 sin jx π fx sin jx
26 S I 6 [ a + a k cos kx + b k sin kx cos jx 37 k a sin jx + [a k cos kx sin jx b j π b j π k b k sin kx sin jx fx sin jx j,, 38 j n a n fx cos nx π [ k cos nx + k cos nx π π sin nx k sin nx π n + k n b n fx sin nx π [ k sin nx + k sin nx π π cos nx k cos nx π n k n 4k nπ n, 3, 5, b c a a π a n π b n π fx fx cos nx fx sin nx n,, 39 4k 3 5 sin x + sin 3x + sin 5x + π x π π f k 4k π 47 k j cos kx cos jx πδ kj π k j δ kj k, j k j sin kx sin jx cos kx cos jx πδ kj T π fx a, a, b, fx fx 3 k < x < fx + π fx, fx k < x < π [ a π fx [ π [ kπ + kπ π k + k π 4 π 3.3 fx fx π x π fx fx x fx x
27 S I 7 fx x x fx fx fx lim h fx h fx + fx + lim h fx + h x fx h fx lim h h fx + h fx + lim h h f x f - f π fx i fx x < x < π ii fx x < x < π < x < iii fx x < x < π x < x < iv fx π /4 < x < π fx a n, b n kfx ka n, kb n k x 3.4 p. L E sin t p.7 3 y + P y + Qy ft P, Q ft 3 L L Et It Et E sin t [ It di dt + L I L Et It A cos t + B sin t di dt A sin t + B cos t A B L + B cos t + L A sin t E L sin t t sin t, cos t A L + B, B L A E L A, B A E L B E + L + It 5 It E L/ + sin t cos t L L Et It Et E cos t
28 S I 8 3 ft sin t y + λy + y sin t D 3.. e-4 e-5 e-6 δ π 3π/4 π/ π/4 λ λ λ ³ sin, cos A, B A + λb λa + B yt λ cos t + sin t + λ sint δ tan δ λ + λ D δ D + λ λ δ arctan 3 4 π sin δ 5 CL L C Et sin t It 5 L C Et sin t It ³ 4 Etsin t L C [ yt A cos t + B sin t y t A sin t + B cos t y t A cos t + B sin t A + λb + A cos t + B λa + B sin t sin t 5
29 S I y + P y + Qy ft ft a + an cos n t + b n sin n t n n y + P y + Qy a n cos n t + b n sin n t y n yt y t + y t + 33 π y + λy + y ft < t < ft < t < π [ ft fourier ft 4 π n n:odd sin nt n 4 n a n + λnb n + a n cos nt n b n λna n + b n sin nt 4 sin nt nπ sin, cos a n, b n n a n + nλb n nλa n + n b n 4 nπ a n 4 nπ nλ π n + nλ b n n nλ y n t 4 nλ cos nt + n sin nt nπ n + nλ 4 nπ sinnt δ n tan δ n + nλ nλ a n n D n δ n 4 D n nπ n + nλ nλ δ n arctan n 6 3., λ.5 D n n 3 3. n 3 7 n,3,5,7 y + λy + y 4 sin nt n : 4 nπ y n t yt y t + y 3 t + y 5 t y n t a n cos nt + b n sin nt y nt nb n cos nt na n sin nt y nt n a n cos nt n b n sin nt
30 Ä S I 3 Ê » t 34 L L T it V -V vt T T 3T t vt [ p. it dit + vt it dt L L vt vt 4V π sin πt T + 3πt sin 3 T + 5πt sin 5 T + dit + dt L it 4V nπt sin n 4 Lnπ T i n t yt i t + i 3 t + i 5 t + 4 i n t a n cos nt + b n sin nt L π T di n t dt nb n cos nt na n sin nt 4 nb n + a n cos nt + na n + b n sin nt 4V sin nt Lnπ nb n + a n, na n + b n 4V Lnπ a n LT 4V n + } b n n a n a n, b n 4V sin nt cos nt n i n t } LT n + 4V πn n + sinnt δ n tan δ n n, n : » L T,, L., V 3
31 S I Fourie Laplace > fx [ cos x fξ cos xi dξ π sin x fξ sin xi dξ d fx [ a cos x + b sin x d π a fx cos x b fx sin x T f T x a + a n cos n x + b n sin n x a T a n T b n T n T/ T/ T/ T/ T/ T/ f T x f T x cos n x f T x sin n x n nπ T n+ n n + π T nπ T π T 4 f T x T + π T/ T/ [ n f T ξdξ T/ cos n x f T ξ cos n ξ dξ T/ T/ sin n x f T ξ sin n ξ dξ T/ T n fx fx lim f T x T d gn gd 3.6. fx fx fx 43 fx x 35 x < fx x > [ a b a b fξ cos ξ dξ cos ξ dξ fξ sin ξ dξ sin ξ dξ sin ξ cos ξ sin
32 S I 3 fx π cos x sin a f a x π a cos x sin 9 d d a a4 a6 a a c a ib c fξe iξ dξ fξe +iξ dξ c fx π π π e[ce ix d fξcos ξ i sin ξ dξ ce ix + c e ix d [ d fξe ix ξ dξ + d fξe ix ξ dξ [ d π [ d π π d + fξe ix ξ dξ dη fξe ix ξ dξ dη fξe ix ξ dξ fξe iηx ξ dξ fξe iηx ξ dξ fx cos x sin + d π π 4 π x x < x < x x sin d π C fxe ix 44 π fx fx Ce ix d 45 π C Six x sin d x
S I. dy fx x fx y fx + C 3 C vt dy fx 4 x, y dy yt gt + Ct + C dt v e kt xt v e kt + C k x v k + C C xt v k 3 r r + dr e kt S Sr πr dt d v } dt k e kt
S I. x yx y y, y,. F x, y, y, y,, y n http://ayapin.film.s.dendai.ac.jp/~matuda n /TeX/lecture.html PDF PS yx.................................... 3.3.................... 9.4................5..............
(3) (2),,. ( 20) ( s200103) 0.7 x C,, x 2 + y 2 + ax = 0 a.. D,. D, y C, C (x, y) (y 0) C m. (2) D y = y(x) (x ± y 0), (x, y) D, m, m = 1., D. (x 2 y
[ ] 7 0.1 2 2 + y = t sin t IC ( 9) ( s090101) 0.2 y = d2 y 2, y = x 3 y + y 2 = 0 (2) y + 2y 3y = e 2x 0.3 1 ( y ) = f x C u = y x ( 15) ( s150102) [ ] y/x du x = Cexp f(u) u (2) x y = xey/x ( 16) ( s160101)
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
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
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r(t) t r(t) O v(t) = dr(t) dt a(t) = dv(t) dt = d2 r(t) dt 2 r(t), v(t), a(t) t dr(t) dt r(t) =(x(t),y(t),z(t)) = d 2 r(t) dt 2 = ( dx(t) dt ( d 2 x(t) dt 2, dy(t), dz(t) dt dt ), d2 y(t) dt 2, d2 z(t)
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微分積分 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. ttp://www.morikita.co.jp/books/mid/00571 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 ii 014 10 iii [note] 1 3 iv 4 5 3 6 4 x 0 sin x x 1 5 6 z = f(x, y) 1 y = f(x)
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 +
No δs δs = r + δr r = δr (3) δs δs = r r = δr + u(r + δr, t) u(r, t) (4) δr = (δx, δy, δz) u i (r + δr, t) u i (r, t) = u i x j δx j (5) δs 2
No.2 1 2 2 δs δs = r + δr r = δr (3) δs δs = r r = δr + u(r + δr, t) u(r, t) (4) δr = (δx, δy, δz) u i (r + δr, t) u i (r, t) = u i δx j (5) δs 2 = δx i δx i + 2 u i δx i δx j = δs 2 + 2s ij δx i δx j
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[ ] IC. f(x) = e x () f(x) f (x) () lim f(x) lim f(x) x + x (3) lim f(x) lim f(x) x + x (4) y = f(x) ( ) ( s46). < a < () a () lim a log xdx a log xdx ( ) n (3) lim log k log n n n k=.3 z = log(x + y ),
4................................. 4................................. 4 6................................. 6................................. 9.................................................... 3..3..........................
[ ] 0.1 lim x 0 e 3x 1 x IC ( 11) ( s114901) 0.2 (1) y = e 2x (x 2 + 1) (2) y = x/(x 2 + 1) 0.3 dx (1) 1 4x 2 (2) e x sin 2xdx (3) sin 2 xdx ( 11) ( s
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22 A 3,4 No.3 () (2) (3) (4), (5) (6) (7) (8) () n x = (x,, x n ), = (,, n ), x = ( (x i i ) 2 ) /2 f(x) R n f(x) = f() + i α i (x ) i + o( x ) α,, α n g(x) = o( x )) lim x g(x) x = y = f() + i α i(x )
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[1.1] r 1 =10e j(ωt+π/4), r 2 =5e j(ωt+π/3), r 3 =3e j(ωt+π/6) ~r = ~r 1 + ~r 2 + ~r 3 = re j(ωt+φ) =(10e π 4 j +5e π 3 j +3e π 6 j )e jωt
![[1.1] r 1 =10e j(ωt+π/4), r 2 =5e j(ωt+π/3), r 3 =3e j(ωt+π/6) ~r = ~r 1 + ~r 2 + ~r 3 = re j(ωt+φ) =(10e π 4 j +5e π 3 j +3e π 6 j )e jωt](/thumbs/101/152334931.jpg "[1.1] r 1 =10e j(ωt+π/4), r 2 =5e j(ωt+π/3), r 3 =3e j(ωt+π/6) ~r = ~r 1 + ~r 2 + ~r 3 = re j(ωt+φ) =(10e π 4 j +5e π 3 j +3e π 6 j )e jωt")
3.4.7 [.] =e j(t+/4), =5e j(t+/3), 3 =3e j(t+/6) ~ = ~ + ~ + ~ 3 = e j(t+φ) =(e 4 j +5e 3 j +3e 6 j )e jt = e jφ e jt cos φ =cos 4 +5cos 3 +3cos 6 =.69 sin φ =sin 4 +5sin 3 +3sin 6 =.9 =.69 +.9 =7.74 [.]
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D d dx 1 1.1 n d n y a 0 dx n + a d n 1 y 1 dx n 1 +... + a dy n 1 dx + a ny = f(x)...(1) dk y dx k = y (k) a 0 y (n) + a 1 y (n 1) +... + a n 1 y + a n y = f(x)...(2) (2) (2) f(x) 0 a 0 y (n) + a 1 y
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II (1 4 ) 1. p.13 1 (x, y) (a, b) ε(x, y; a, b) f (x, y) f (a, b) A, B (6.5) y = b f (x, b) f (a, b) x a = A + ε(x, b; a, b) x a x a A = f x (a, b) y x 3 3y 3 (x, y) (, ) f (x, y) = x + y (x, y) = (, )
214 March 31, 214, Rev.2.1 4........................ 4........................ 5............................. 7............................... 7 1 8 1.1............................... 8 1.2.......................
2 1 x 1.1: v mg x (t) = v(t) mv (t) = mg 0 x(0) = x 0 v(0) = v 0 x(t) = x 0 + v 0 t 1 2 gt2 v(t) = v 0 gt t x = x 0 + v2 0 2g v2 2g 1.1 (x, v) θ
1 1 1.1 (Isaac Newton, 1642 1727) 1. : 2. ( ) F = ma 3. ; F a 2 t x(t) v(t) = x (t) v (t) = x (t) F 3 3 3 3 3 3 6 1 2 6 12 1 3 1 2 m 2 1 x 1.1: v mg x (t) = v(t) mv (t) = mg 0 x(0) = x 0 v(0) = v 0 x(t)
. sinh x sinh x) = e x e x = ex e x = sinh x 3) y = cosh x, y = sinh x y = e x, y = e x 6 sinhx) coshx) 4 y-axis x-axis : y = cosh x, y = s
. 00 3 9 [] sinh x = ex e x, cosh x = ex + e x ) sinh cosh 4 hyperbolic) hyperbola) = 3 cosh x cosh x) = e x + e x = cosh x ) . sinh x sinh x) = e x e x = ex e x = sinh x 3) y = cosh x, y = sinh x y =
2019 1 5 0 3 1 4 1.1.................... 4 1.1.1......................... 4 1.1.2........................ 5 1.1.3................... 5 1.1.4........................ 6 1.1.5......................... 6 1.2..........................
1 3 1.1.......................... 3 1............................... 3 1.3....................... 5 1.4.......................... 6 1.5........................ 7 8.1......................... 8..............................
1 1 sin cos P (primary) S (secondly) 2 P S A sin(ω2πt + α) A ω 1 ω α V T m T m 1 100Hz m 2 36km 500Hz. 36km 1
sin cos P (primary) S (secondly) 2 P S A sin(ω2πt + α) A ω ω α 3 3 2 2V 3 33+.6T m T 5 34m Hz. 34 3.4m 2 36km 5Hz. 36km m 34 m 5 34 + m 5 33 5 =.66m 34m 34 x =.66 55Hz, 35 5 =.7 485.7Hz 2 V 5Hz.5V.5V V
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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,
( ) 2.1. C. (1) x 4 dx = 1 5 x5 + C 1 (2) x dx = x 2 dx = x 1 + C = 1 2 x + C xdx (3) = x dx = 3 x C (4) (x + 1) 3 dx = (x 3 + 3x 2 + 3x +
(.. C. ( d 5 5 + C ( d d + C + C d ( d + C ( ( + d ( + + + d + + + + C (5 9 + d + d tan + C cos (sin (6 sin d d log sin + C sin + (7 + + d ( + + + + d log( + + + C ( (8 d 7 6 d + 6 + C ( (9 ( d 6 + 8 d
II K116 : January 14, ,. A = (a ij ) ij m n. ( ). B m n, C n l. A = max{ a ij }. ij A + B A + B, AC n A C (1) 1. m n (A k ) k=1,... m n A, A k k
: January 14, 28..,. A = (a ij ) ij m n. ( ). B m n, C n l. A = max{ a ij }. ij A + B A + B, AC n A C (1) 1. m n (A k ) k=1,... m n A, A k k, A. lim k A k = A. A k = (a (k) ij ) ij, A k = (a ij ) ij, i,
1.2 y + P (x)y + Q(x)y = 0 (1) y 1 (x), y 2 (x) y 1 (x), y 2 (x) (1) y(x) c 1, c 2 y(x) = c 1 y 1 (x) + c 2 y 2 (x) 3 y 1 (x) y 1 (x) e R P (x)dx y 2
1 1.1 R(x) = 0 y + P (x)y + Q(x)y = R(x)...(1) y + P (x)y + Q(x)y = 0...(2) 1 2 u(x) v(x) c 1 u(x)+ c 2 v(x) = 0 c 1 = c 2 = 0 c 1 = c 2 = 0 2 0 2 u(x) v(x) u(x) u (x) W (u, v)(x) = v(x) v (x) 0 1 1.2
z f(z) f(z) x, y, u, v, r, θ r > 0 z = x + iy, f = u + iv C γ D f(z) f(z) D f(z) f(z) z, Rm z, z 1.1 z = x + iy = re iθ = r (cos θ + i sin θ) z = x iy
z fz fz x, y, u, v, r, θ r > z = x + iy, f = u + iv γ D fz fz D fz fz z, Rm z, z. z = x + iy = re iθ = r cos θ + i sin θ z = x iy = re iθ = r cos θ i sin θ x = z + z = Re z, y = z z = Im z i r = z = z
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II 14 14-7-8 8/4 II (http://www.damp.tottori-u.ac.jp/~ooshida/edu/fluid/) [ (3.4)] Navier Stokes [ 6/ ] Navier Stokes 3 [ ] Reynolds [ (4.6), (45.8)] [ p.186] Navier Stokes I 1 balance law t (ρv i )+ j
X G P G (X) G BG [X, BG] S 2 2 2 S 2 2 S 2 = { (x 1, x 2, x 3 ) R 3 x 2 1 + x 2 2 + x 2 3 = 1 } R 3 S 2 S 2 v x S 2 x x v(x) T x S 2 T x S 2 S 2 x T x S 2 = { ξ R 3 x ξ } R 3 T x S 2 S 2 x x T x S 2
1 8, : 8.1 1, 2 z = ax + by + c ax by + z c = a b +1 x y z c = 0, (0, 0, c), n = ( a, b, 1). f = n i=1 a ii x 2 i + i<j 2a ij x i x j = ( x, A x), f =
1 8, : 8.1 1, z = ax + by + c ax by + z c = a b +1 x y z c = 0, (0, 0, c), n = ( a, b, 1). f = a ii x i + i
18 ( ) I II III A B C(100 ) 1, 2, 3, 5 I II A B (100 ) 1, 2, 3 I II A B (80 ) 6 8 I II III A B C(80 ) 1 n (1 + x) n (1) n C 1 + n C
8 ( ) 8 5 4 I II III A B C( ),,, 5 I II A B ( ),, I II A B (8 ) 6 8 I II III A B C(8 ) n ( + x) n () n C + n C + + n C n = 7 n () 7 9 C : y = x x A(, 6) () A C () C P AP Q () () () 4 A(,, ) B(,, ) C(,,
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I 6 4 10 1 1 1.1............... 1 1................ 1 1.3.................... 1.4............... 1.4.1.............. 1.4................. 1.4.3........... 3 1.4.4.. 3 1.5.......... 3 1.5.1..............
No2 4 y =sinx (5) y = p sin(2x +3) (6) y = 1 tan(3x 2) (7) y =cos 2 (4x +5) (8) y = cos x 1+sinx 5 (1) y =sinx cos x 6 f(x) = sin(sin x) f 0 (π) (2) y
No1 1 (1) 2 f(x) =1+x + x 2 + + x n, g(x) = 1 (n +1)xn + nx n+1 (1 x) 2 x 6= 1 f 0 (x) =g(x) y = f(x)g(x) y 0 = f 0 (x)g(x)+f(x)g 0 (x) 3 (1) y = x2 x +1 x (2) y = 1 g(x) y0 = g0 (x) {g(x)} 2 (2) y = µ
数学の基礎訓練I
I 9 6 13 1 1 1.1............... 1 1................ 1 1.3.................... 1.4............... 1.4.1.............. 1.4................. 3 1.4.3........... 3 1.4.4.. 3 1.5.......... 3 1.5.1..............
I No. sin cos sine, cosine : trigonometric function π : π =.4 : n =, ±, ±, sin + nπ = sin cos + nπ = cos sin = sin : cos = cos :. sin. sin. sin + π si
I 8 No. : No. : No. : No.4 : No.5 : No.6 : No.7 : No.8 : No.9 : No. : I No. sin cos sine, cosine : trigonometric function π : π =.4 : n =, ±, ±, sin + nπ = sin cos + nπ = cos sin = sin : cos = cos :. sin.
M3 x y f(x, y) (= x) (= y) x + y f(x, y) = x + y + *. f(x, y) π y f(x, y) x f(x + x, y) f(x, y) lim x x () f(x,y) x 3 -
M3............................................................................................ 3.3................................................... 3 6........................................... 6..........................................
ma22-9 u ( v w) = u v w sin θê = v w sin θ u cos φ = = 2.3 ( a b) ( c d) = ( a c)( b d) ( a d)( b c) ( a b) ( c d) = (a 2 b 3 a 3 b 2 )(c 2 d 3 c 3 d
A 2. x F (t) =f sin ωt x(0) = ẋ(0) = 0 ω θ sin θ θ 3! θ3 v = f mω cos ωt x = f mω (t sin ωt) ω t 0 = f ( cos ωt) mω x ma2-2 t ω x f (t mω ω (ωt ) 6 (ωt)3 = f 6m ωt3 2.2 u ( v w) = v ( w u) = w ( u v) ma22-9
213 March 25, 213, Rev.1.5 4........................ 4........................ 6 1 8 1.1............................... 8 1.2....................... 9 2 14 2.1..................... 14 2.2............................
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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...............................
f(x) = x (1) f (1) (2) f (2) f(x) x = a y y = f(x) f (a) y = f(x) A(a, f(a)) f(a + h) f(x) = A f(a) A x (3, 3) O a a + h x 1 f(x) x = a
3 3.1 3.1.1 A f(a + h) f(a) f(x) lim f(x) x = a h 0 h f(x) x = a f 0 (a) f 0 (a) = lim h!0 f(a + h) f(a) h = lim x!a f(x) f(a) x a a + h = x h = x a h 0 x a 3.1 f(x) = x x = 3 f 0 (3) f (3) = lim h 0 (
#A A A F, F d F P + F P = d P F, F y P F F x A.1 ( α, 0), (α, 0) α > 0) (x, y) (x + α) 2 + y 2, (x α) 2 + y 2 d (x + α)2 + y 2 + (x α) 2 + y 2 =
#A A A. F, F d F P + F P = d P F, F P F F A. α, 0, α, 0 α > 0, + α +, α + d + α + + α + = d d F, F 0 < α < d + α + = d α + + α + = d d α + + α + d α + = d 4 4d α + = d 4 8d + 6 http://mth.cs.kitmi-it.c.jp/
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y π π O π x 9 s94.5 y dy dx. y = x + 3 y = x logx + 9 s9.6 z z x, z y. z = xy + y 3 z = sinx y 9 s x dx π x cos xdx 9 s93.8 a, fx = e x ax,. a =
[ ] 9 IC. dx = 3x 4y dt dy dt = x y u xt = expλt u yt λ u u t = u u u + u = xt yt 6 3. u = x, y, z = x + y + z u u 9 s9 grad u ux, y, z = c c : grad u = u x i + u y j + u k i, j, k z x, y, z grad u v =
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r d 2r d l d (a) (b) (c) 1: I(x,t) I(x+ x,t) I(0,t) I(l,t) V in V(x,t) V(x+ x,t) V(0,t) l V(l,t) 2: 0 x x+ x 3: V in 3 V in x V (x, t) I(x, t
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1 variation 1.1 imension unit L m M kg T s Q C QT 1 A = C s 1 MKSA F = ma N N = kg m s 1.1 J E = 1 mv W = F x J = kg m s 1 = N m 1.
1.1 1. 1.3.1..3.4 3.1 3. 3.3 4.1 4. 4.3 5.1 5. 5.3 6.1 6. 6.3 7.1 7. 7.3 1 1 variation 1.1 imension unit L m M kg T s Q C QT 1 A = C s 1 MKSA F = ma N N = kg m s 1.1 J E = 1 mv W = F x J = kg m s 1 = N
sin cos No. sine, cosine : trigonometric function π : π = 3.4 : n = 0, ±, ±, sin + nπ = sin cos + nπ = cos : parity sin = sin : odd cos = cos : even.
08 No. : No. : No.3 : No.4 : No.5 : No.6 : No.7 : No.8 : No.9 : No.0 : No. : sin cos No. sine, cosine : trigonometric function π : π = 3.4 : n = 0, ±, ±, sin + nπ = sin cos + nπ = cos : parity sin = sin
x x x 2, A 4 2 Ax.4 A A A A λ λ 4 λ 2 A λe λ λ2 5λ + 6 0,...λ 2, λ 2 3 E 0 E 0 p p Ap λp λ 2 p 4 2 p p 2 p { 4p 2 2p p + 2 p, p 2 λ {
K E N Z OU 2008 8. 4x 2x 2 2 2 x + x 2. x 2 2x 2, 2 2 d 2 x 2 2.2 2 3x 2... d 2 x 2 5 + 6x 0 2 2 d 2 x 2 + P t + P 2tx Qx x x, x 2 2 2 x 2 P 2 tx P tx 2 + Qx x, x 2. d x 4 2 x 2 x x 2.3 x x x 2, A 4 2
4 5.............................................. 5............................................ 6.............................................. 7......................................... 8.3.................................................4.........................................4..............................................4................................................4.3...............................................
I No. sin cos sine, cosine : trigonometric function π : π =.4 : n = 0, ±, ±, sin + nπ = sin cos + nπ = cos : parity sin = sin : odd cos = cos : even.
I 0 No. : No. : No. : No.4 : No.5 : No.6 : No.7 : No.8 : No.9 : No.0 : I No. sin cos sine, cosine : trigonometric function π : π =.4 : n = 0, ±, ±, sin + nπ = sin cos + nπ = cos : parity sin = sin : odd
2 1 κ c(t) = (x(t), y(t)) ( ) det(c (t), c x (t)) = det (t) x (t) y (t) y = x (t)y (t) x (t)y (t), (t) c (t) = (x (t)) 2 + (y (t)) 2. c (t) =
1 1 1.1 I R 1.1.1 c : I R 2 (i) c C (ii) t I c (t) (0, 0) c (t) c(i) c c(t) 1.1.2 (1) (2) (3) (1) r > 0 c : R R 2 : t (r cos t, r sin t) (2) C f : I R c : I R 2 : t (t, f(t)) (3) y = x c : R R 2 : t (t,
ii p ϕ x, t = C ϕ xe i ħ E t +C ϕ xe i ħ E t ψ x,t ψ x,t p79 やは時間変化しないことに注意 振動 粒子はだいたい このあたりにいる 粒子はだいたい このあたりにいる p35 D.3 Aψ Cϕdx = aψ ψ C Aϕ dx
i B5 7.8. p89 4. ψ x, tψx, t = ψ R x, t iψ I x, t ψ R x, t + iψ I x, t = ψ R x, t + ψ I x, t p 5.8 π π π F e ix + F e ix + F 3 e 3ix F e ix + F e ix + F 3 e 3ix dx πψ x πψx p39 7. AX = X A [ a b c d x
e a b a b b a a a 1 a a 1 = a 1 a = e G G G : x ( x =, 8, 1 ) x 1,, 60 θ, ϕ ψ θ G G H H G x. n n 1 n 1 n σ = (σ 1, σ,..., σ N ) i σ i i n S n n = 1,,
01 10 18 ( ) 1 6 6 1 8 8 1 6 1 0 0 0 0 1 Table 1: 10 0 8 180 1 1 1. ( : 60 60 ) : 1. 1 e a b a b b a a a 1 a a 1 = a 1 a = e G G G : x ( x =, 8, 1 ) x 1,, 60 θ, ϕ ψ θ G G H H G x. n n 1 n 1 n σ = (σ 1,
() (, y) E(, y) () E(, y) (3) q ( ) () E(, y) = k q q (, y) () E(, y) = k r r (3).3 [.7 ] f y = f y () f(, y) = y () f(, y) = tan y y ( ) () f y = f y
![() (, y) E(, y) () E(, y) (3) q ( ) () E(, y) = k q q (, y) () E(, y) = k r r (3).3 [.7 ] f y = f y () f(, y) = y () f(, y) = tan y y ( ) () f y = f y](/thumbs/85/92979039.jpg "() (, y) E(, y) () E(, y) (3) q ( ) () E(, y) = k q q (, y) () E(, y) = k r r (3).3 [.7 ] f y = f y () f(, y) = y () f(, y) = tan y y ( ) () f y = f y")
5. [. ] z = f(, y) () z = 3 4 y + y + 3y () z = y (3) z = sin( y) (4) z = cos y (5) z = 4y (6) z = tan y (7) z = log( + y ) (8) z = tan y + + y ( ) () z = 3 8y + y z y = 4 + + 6y () z = y z y = (3) z =
< 1 > (1) f 0 (a) =6a ; g 0 (a) =6a 2 (2) y = f(x) x = 1 f( 1) = 3 ( 1) 2 =3 ; f 0 ( 1) = 6 ( 1) = 6 ; ( 1; 3) 6 x =1 f(1) = 3 ; f 0 (1) = 6 ; (1; 3)
< 1 > (1) f 0 (a) =6a ; g 0 (a) =6a 2 (2) y = f(x) x = 1 f( 1) = 3 ( 1) 2 =3 ; f 0 ( 1) = 6 ( 1) = 6 ; ( 1; 3) 6 x =1 f(1) = 3 ; f 0 (1) = 6 ; (1; 3) 6 y = g(x) x = 1 g( 1) = 2 ( 1) 3 = 2 ; g 0 ( 1) =
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) ] [ h m x + y + + V x) φ = Eφ 1) z E = i h t 13) x << 1) N n n= = N N + 1) 14) N n n= = N N + 1)N + 1) 6 15) N n 3 n= = 1 4 N N + 1) 16) N n 4
![) ] [ h m x + y + + V x) φ = Eφ 1) z E = i h t 13) x << 1) N n n= = N N + 1) 14) N n n= = N N + 1)N + 1) 6 15) N n 3 n= = 1 4 N N + 1) 16) N n 4](/thumbs/92/107866707.jpg ") ] [ h m x + y + + V x) φ = Eφ 1) z E = i h t 13) x << 1) N n n= = N N + 1) 14) N n n= = N N + 1)N + 1) 6 15) N n 3 n= = 1 4 N N + 1) 16) N n 4")
1. k λ ν ω T v p v g k = π λ ω = πν = π T v p = λν = ω k v g = dω dk 1) ) 3) 4). p = hk = h λ 5) E = hν = hω 6) h = h π 7) h =6.6618 1 34 J sec) hc=197.3 MeV fm = 197.3 kev pm= 197.3 ev nm = 1.97 1 3 ev
.3. (x, x = (, u = = 4 (, x x = 4 x, x 0 x = 0 x = 4 x.4. ( z + z = 8 z, z 0 (z, z = (0, 8, (,, (8, 0 3 (0, 8, (,, (8, 0 z = z 4 z (g f(x = g(
06 5.. ( y = x x y 5 y 5 = (x y = x + ( y = x + y = x y.. ( Y = C + I = 50 + 0.5Y + 50 r r = 00 0.5Y ( L = M Y r = 00 r = 0.5Y 50 (3 00 0.5Y = 0.5Y 50 Y = 50, r = 5 .3. (x, x = (, u = = 4 (, x x = 4 x,
December 28, 2018
e-mail : kigami@i.kyoto-u.ac.jp December 28, 28 Contents 2............................. 3.2......................... 7.3..................... 9.4................ 4.5............. 2.6.... 22 2 36 2..........................