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gulbahor opaga matem 51 mavzu

- 7 - Leybnits formulasi tatbiqlari.

Leybnits formulasi.


( x  2 )ⁿ _

Agar u(x) va v(x) funksiyalar n-tartibli hosilalarga ega bo‘lsa, u holda bu ikki funksiya ko‘paytmasining n -tartibli hosilasi uchun
( uv )⁽ ⁿ ⁾  u⁽ ⁿ ⁾v  C_n' u⁽ ⁿ^¹⁾v' C²u⁽ ⁿ^² ⁾v'' ... C^ku⁽ ⁿ^^k ⁾v⁽ ^k ⁾  ...

n

n
₊_Cⁿ^¹_u'_v( n1 ) __uv( n )
n

(9)

n
formula o‘rinli bo‘ladi. Bunda C^k
n( n  1)...(n  k  1)
 .
k!

Isboti. Matematik induksiya usulini qo‘llaymiz. Ma’lumki,
(uv)’=u’v+uv’. Bu esa n=1 bo‘lganda (9) formulaning to‘g‘riligini ko‘rsatadi. Shuning uchun
(9) formulani ixtiyoriy n uchun o‘rinli deb olib, uning n+1 uchun ham to‘g‘riligini ko‘rsatamiz.
(9) ni differensiyalaymiz:

n

n
( uv )ⁿ^¹  u⁽ ⁿ^¹⁾v  u⁽ ⁿ ⁾v' C'_nu⁽ ⁿ ⁾v' C_n' u⁽ ⁿ^¹⁾v' ' C ²u⁽ ⁿ^¹⁾v' ' C ²u⁽ ⁿ^² ⁾v' ' ' 
__...__Ck_u( n k 1 )_v( k ) __Ck_u( n k )_v( k 1 ) __...__Cn 1_{u'' v}( n 1 ) __Cn 1_{u' v}( n ) _

n n
₊_{u' v}( n ) __uv( n1 )
Ushbu
n n

(10)

1 C
'  1 n  C'
_C_'__C₂__n_n( n 1) _( n 1)n __C₂_,

n n 1, n n
_{2 2}n 1

_Ck 1 __Ck
_n( n 1)...(n  2  k ) _n( n 1)...(n  k 1) _


ⁿ ⁿ ( k 1)! k!

 C
( n 1)n...(n 1 ( k 1))
=
k!

k n1

tengliklardan foydalanib, (10) ni quyidagicha yozamiz:

₍_uv₎n1 __u( n1 )_v__C1
u⁽ ⁿ ⁾v'C ²
u⁽ ⁿ^¹⁾v'' ... C^k
_un1k _v( k ) __...__uv( n1 )

n1
n1
n1

Demak, (9) formula n+1 uchun ham o‘rinli ekan. Isbot etilgan (9) formula Leybnits formulasi deb ataladi.
- 7 -

Leybnits formulasi tatbiqlari.

Misol. y=x³e^x ning 20-tartibli hosilasi topilsin.
Yechish. u=e^x va v=x³ deb olsak, Leybnits formulasiga ko‘ra

_y( 20 ) __x3_{( e}x ₎( 20 ) __C1
( x³ )'( e^x )⁽¹⁹⁾  C ² ( x³ )'' ( e^x )⁽¹⁸⁾  C³ ( x³ )''' ( e^x )⁽¹⁷⁾ 

20 20 20

20
 C ⁴ ( x³ )⁽ ⁴ ⁾( e^x )¹⁶  ... ( x³ )⁽ ²⁰⁾ e^x
bo‘ladi. (x³)’=3x², (x³)’’=6x, (x³)’’’=6, (x³)⁽⁴⁾=0

tengliklarni va y=x³ funksiyaning hamma keyingi hosilalarining 0 ga tengligini, shuningdek n
uchun (e^x)⁽ⁿ⁾=e^x ekanligini e’tiborga olsak,

y⁽ ²⁰⁾  e^x( x³  3C¹ x²  6C ² x  6C³
) tenglik hosil bo‘ladi.

20 20 20
Endi koeffitsientlarni hisoblaymiz:

C¹  20,
C ²  ²⁰^¹⁹ 190,
_C₃_20 19 18 _20 19 18 _₁₁₄₀

Demak,
20 ₂

²⁰ 3! 6

y⁽ ²⁰⁾  e^x( x³  60x² 1140x  6840 ).

Xulosa.

Yuqori tartibli hosilalar tushunchasi o’rganildi.
Leybnits formulasi yordamida konkret misollar yechildi.
Ikkinchi tartibli xosilaning mexanik ma’nosi misollar yordamida tushuntirildi.

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