Furye qatori. Funksiyalarni Furye qatoriga yoyish
Keywords: Fourier series, Fourier coefficients. Fourier series expansion of functions
Yüklə 318,25 Kb. Pdf görüntüsü
|
| Keywords:
Fourier series, Fourier coefficients. Fourier series expansion of functions. 1. Furye qatori. Faraz qilaylik, ( ) f x funksiya ( ) , = − + R da berilgan bo‘lsin. Ma’lumki, shunday \ 0 T R son topilsaki, x R da ( ) ( ) + = f x T f x tenglik bajarilsa, ( ) f x davriy funksiya, 0 T son esa uning davri deyiladi. Agar 0 T son ( ) f x funksiyaning davri bo‘lsa, u holda kT ( ) 1, 2, = k sonlar ham shu funksiyaning davri bo‘ladi. Agar ( ) f x va ( ) g x davriy funksiyalar bo‘lib, 0 T ularning davri bo‘lsa, ( ) ( ) ( ) ( ) ( ) ( ) ( ) ( ) , , 0 f x f x g x f x g x g x g x funksiyalar ham davriy bo‘lib, ularning davri T ga teng bo‘ladi. sin , cos y x y x = = funksiyalar 2 = T davrli funksiya bo‘lgan holda ushbu ( ) cos sin = + x a x b x ( , , − a b o‘zgarmas, 0 ) funksiya ham davriy funksiya bo‘lib, uning davri 2 = T bo‘ladi. Haqiqatan ham, ( ) ( ) ( ) 2 2 2 cos sin cos 2 sin 2 cos sin x a x b x a x b x a x b x x + = + + + = = + + + = + = bo‘ladi. Bu ( ) cos sin = + x a x b x sodda davriy funksiya bo‘lib, u garmonika deb ataladi. Aytaylik, ( ) f x funksiya , − da uzluksiz bo‘lsin. Unda ( ) ( ) ( ) cos , sin 1, 2,3, f x nx f x nx n = funksiyalar ham , − da uzluksiz bo‘lib, ular , − da integrallanuvchi bo‘ladi. Bu integrallarni quyidagicha belgilaymiz: "Science and Education" Scientific Journal / Impact Factor 3.848 (SJIF) January 2023 / Volume 4 Issue 1 www.openscience.uz / ISSN 2181-0842 78 ( ) ( ) ( ) ( ) ( ) 0 1 , 1 cos , 1, 2, 1 sin . 1, 2, n n a f x dx a f x nxdx n b f x nxdx n − − − = = = = = (1) Bu sonlardan foydalanib, ushbu ( ) 0 1 cos sin 2 = + + n n n a a nx b nx (2) qatorni ( uni trigonometrik qator deyiladi) hosil qilamiz. (2) qator funksional qator bo‘lib, uning har bir hadi garmonikadan iborat. Ta’rif. (2) funksional qator ( ) f x funksiyaning Furye qatori deyiladi. (1) munosabatlar bilan aniqlangan 0 1 1 2 2 , , , , , , , , n n a a b a b a b sonlar Furye koeffitsiyentlari deyiladi. 7.2. Funksiyalarni Furye qatoriga yoyish. Demak, berilgan ( ) f x funksiyaning Furye koeffitsiyentlari shu funksiyaga bog‘liq bo‘lib, (2) formulalar yordamida aniqlanadi, qator esa quyidagicha: ( ) ( ) 0 1 ~ cos sin 2 = + + n n n a f x a nx b nx . belgilanadi. 1-misol. Ushbu ( ) ( ) , 0 x f x e x = − funksiyaning Furye qatori topilsin. (1) formulalardan foydalanib, berilgan funksiyaning Furye koeffitsiyentlarini hisoblaymiz: ( ) ( ) ( ) ( ) ( ) 0 2 2 2 2 2 2 1 2 2 1 1 2 , 1 1 cos sin cos 1 2 1 1, 2 , , 1 1 sin cos sin 1 2 1 1, 2 , . x x x n n x x n n a e dx e e sh nx n nx a e nxdx e n sh n n nx n nx b e nxdx e n n sh n n − − − − − − − = = − = + = = = + = − = + − = = = + = − = + Demak, ( ) = x f x e funksiyaning Furye qatori "Science and Education" Scientific Journal / Impact Factor 3.848 (SJIF) January 2023 / Volume 4 Issue 1 www.openscience.uz / ISSN 2181-0842 79 ( ) ( ) ( ) ( ) 0 1 2 2 1 ~ cos sin 2 1 2 1 cos sin 2 = = = + + = − = + − + x n n n n n a f x e a nx b nx sh nx n nx n bo‘ladi. Aytaylik, ( ) f x funksiya , − da berilgan juft funksiya bo‘lsin: ( ) ( ) − = f x f x . U holda ( ) cos f x nx juft, ( ) sin f x nx toq ( ) 1, 2,3,... = n funksiya bo‘ladi. (1) formulalardan foydalanib, ( ) f x funksiyaning Furye koeffitsiyentlarini topamiz: ( ) ( ) ( ) ( ) ( ) ( ) ( ) 0 0 0 0 0 1 1 cos cos cos 1 cos cos 2 cos 0,1, 2, . n a f x nxdx f x nxdx f x nxdx f x nxdx f x nxdx f x nxdx n − − = = + = = + = = ( ) ( ) ( ) ( ) ( ) ( ) 0 0 0 0 1 1 sin sin sin 1 sin sin 0 1, 2, . − − = = + = = − + = = n b f x nxdx f x nxdx f x nxdx f x nxdx f x nxdx n Demak, juft ( ) f x funksiyaning Furye koeffitsiyentlari ( ) ( ) ( ) 0 2 cos 0,1, 2, 0 1, 2, n n a f x nxdx n b n = = = = bo‘lib, Furye qatori ( ) 0 1 ~ cos 2 = + n n a f x a nx bo‘ladi. Aytaylik, ( ) f x funksiya , − da berilgan toq funksiya bo‘lsin: ( ) ( ) − = − f x f x . U holda ( ) cos f x nx toq, ( ) sin f x nx juft ( ) 1, 2,3,... = n funksiya bo‘ladi. (1) formulalardan foydalanib, ( ) f x funksiyaning Furye koeffitsiyentlarini topamiz: "Science and Education" Scientific Journal / Impact Factor 3.848 (SJIF) January 2023 / Volume 4 Issue 1 www.openscience.uz / ISSN 2181-0842 80 ( ) ( ) ( ) ( ) ( ) ( ) 0 0 0 1 1 cos cos cos 1 cos cos 0 0,1, 2, , − − = = + = = − + = = n a f x nxdx f x nxdx f x nxdx f x nxdx f x nxdx n ( ) ( ) ( ) ( ) ( ) 0 0 0 1 1 sin sin sin 2 sin 1, 2, . − − = = + = = = n b f x nxdx f x nxdx f x nxdx f x nxdx n Demak, toq ( ) f x funksiyaning Furye koeffitsiyentlari ( ) ( ) ( ) 0 0, 0,1, 2, , 2 sin , 1, 2, n n a n b f x nxdx n = = = = bo‘lib, Furye qatori ( ) 1 ~ sin = n n f x b nx bo‘ladi. 2-misol. Ushbu ( ) ( ) 2 f x x x = − juft funksiyaning Furye qatori topilsin. Avvalo berilgan funksiyaning Furye koeffitsiyentlarini topamiz: ( ) ( ) 2 2 0 0 2 2 0 0 0 2 0 0 2 2 , 3 2 2 sin 4 cos sin 4 cos 1 4 cos 1 . 1, 2, n n a x dx nx a x nxdx x x nxdx n n x nx nxdx n n n n n = = = = − = = − = − = Demak, ( ) 2 = f x x funksiyaning Furye qatori ( ) ( ) 2 2 2 1 cos ~ 4 1 3 = = + − n n nx f x x n bo‘ladi. 3-misol. Ushbu ( ) ( ) f x x x = − toq funksiyaning Furye qatori topilsin. Berilgan funksiyaning Furye koeffitsiyentlarini hisoblaymiz: ( ) 1 0 0 0 2 1 2 2 cos 1 sin cos − − = = − + = n n x nx b x nxdx nxdx n n n . Demak, ( ) = f x x funksiyaning Furye qatori ( ) ( ) 1 1 2 ~ 1 sin − = − n n f x nx n bo‘ladi. "Science and Education" Scientific Journal / Impact Factor 3.848 (SJIF) January 2023 / Volume 4 Issue 1 www.openscience.uz / ISSN 2181-0842 81 Faraz qilaylik, ( ) f x funksiya , − p p ( ) 0 p segmentda uzluksiz bo‘lsin. Ma’lumki, ushbu = t x p almashtirish , − p p oraliqni , − ga o‘tkazadi, ya’ni x o‘zgaruvchi , − p p da o‘zgarganda t o‘zgaruvchi , − da o‘zgaradi. Endi ( ) ( ) . = = p f x f t t deymiz. Unda ( ) t funksiya , − oraliqda berilgan uzluksiz funksiya bo‘ladi. Bu funksiyaning Furye koeffitsiyentlari ( ) ( ) ( ) ( ) 1 cos , 0 ,1, 2 , 1 sin 1, 2 , n n a t ntdt n b t ntdt n − − = = = = ni topib, Furye qatorini yozamiz: ( ) ( ) 0 1 ~ cos sin 2 = + + n n n a t a nt b nt . Modomiki, = t x p ekan, unda 0 1 ~ cos sin , 2 = + + n n n a x a n x b n x p p p bo‘lib, uning koeffitsiyentlari ( ) ( ) 1 cos , 0,1, 2 1 sin . 1, 2 p n p p n p a x n xdx n p p p b x n xdx n p p p − − = = = = bo‘ladi. Natijada , − p p da berilgan ( ) f x funksiyaning Furye qatorini quyidagicha ( ) 0 1 ~ cos sin 2 = + + n n n a n x n x f x a b p p bo‘lishini topamiz, bunda "Science and Education" Scientific Journal / Impact Factor 3.848 (SJIF) January 2023 / Volume 4 Issue 1 www.openscience.uz / ISSN 2181-0842 82 ( ) ( ) ( ) ( ) 1 cos 0,1, 2 1 sin 1, 2 p n p p n p n x a f x dx n p p n b f x xdx n p p − − = = = = 4-misol. Ushbu ( ) ( ) 1 1 x f x e x = − funksiyaning Furye qatori topilsin. Yuqoridagi formulalardan foydalanib, ( ) = x f x e funksiyaning Furye koeffitsiyentilarini topamiz: ( ) ( ) ( ) 1 1 1 1 0 2 2 1 1 1 1 1 2 2 2 2 sin cos , cos 1 1 cos cos 1 1, 2 , , 1 1 x x x n n n n x n x a e dx e e a e n xdx e n e e e n e n n n n − − − − − − − = = − = = = + − = − = − = + + ( ) 1 1 2 2 1 1 1 2 2 sin cos cos 1 1 cos cos 1 − − − − = = = + = + = + x x n n x n n x b e n xdx e n en n n e n n ( ) ( ) ( ) ( ) 1 1 1 2 2 2 2 1 1 1, 2, 1 1 n n n e e e e n n n − + − − − = − = − = + + Demak, ( ) ( ) 1 1 x f x e x = − funksiyaning Furye qatori ( ) ( ) ( ) 1 1 1 2 2 2 2 1 1 1 ~ cos sin 2 1 1 + − − = − − − + − + + + n n x n e e e e e n n n x n n bo‘ladi. Aytaylik, ( ) f x funksiya , a b da berilgan bo’lsin. , a b segment k a nuqtalar yordamida bo‘laklarga ajratilgan. 0 ( , ) = = n a a a b . Agar har bir ( ) 1 , + k k a a ( ) 0,1, 2, , 1 = − k n da ( ) f x funksiya differensiallanuvchi bo‘lib, = k x a nuqtalarda chekli o‘ng ( ) ( ) 0 0,1, 2, , 1 k f a k n + = − , va chap ( ) ( ) 0 0,1, 2, , k f a k n − = hosilalarga ega bo‘lsa, ( ) f x funksiya , a b da bo‘lakli-differensiallanuvchi deyiladi. Endi Furye qatorining yaqinlashuvchi bo‘lishi haqidagi teoremani isbotsiz keltiramiz. "Science and Education" Scientific Journal / Impact Factor 3.848 (SJIF) January 2023 / Volume 4 Issue 1 www.openscience.uz / ISSN 2181-0842 83 Teorema. 2 davrli ( ) f x funksiya , − oraliqda bo‘lakli-differensiallanuvchi bo‘lsa, u holda bu funksiyaning Furye qatori ( ) ( ) 0 1 ~ cos sin 2 = + + k k k a f x a kx b kx , − da yaqinlashuvchi bo‘lib, uning yig‘indisi ( ) ( ) 0 0 2 + + − f x f x ga teng bo‘ladi. 5-misol. Ushbu ( ) ( ) cos , f x ax x a n Z = − funksiyaning Furye qatori topilsin va u yaqinlashishga tekshirilsin. Bu funksiyaning Furye koeffitsiyentlarini topamiz. Qaralayotgan funksiya juft bo‘lgani uchun ( ) 0 1, 2,3, n b n = = bo‘lib, ( ) ( ) ( ) 0 0 2 cos cos cos cos sin 1 1 1 = = − + + = = − + + − n n a ax nxdx a n x a n x dx a a n a n bo‘ladi. Demak, ( ) ( ) 1 sin 1 1 1 ~ 1 cos = + − + + − n n a f x nx a a n a n . Agar ( ) cos = f x ax funksiya teoremaning shartlarini bajarishini e’tiborga olsak, unda ( ) 1 sin 1 1 1 cos 1 cos = = + − + + − n n a ax nx a a n a n bo‘lishini topamiz. Yüklə 318,25 Kb. Dostları ilə paylaş:
|