§1.1 Legendre多项式 一、 Legendre方程的级数解 1-x2)y2xy+(+1)y=0 对照常微分方程的级数解法 此处y(小/2x(321x2 1(1+1) 它们在x=0点邻域均解析,故x=0为该方程 的常点,从而可令
§1.1Legendre多项式 一、Legendre方程的级数解 ( ) ( ) ( ) 2 1- x y ¢¢ ¢ - 2xy + l l y + = 1 0 1 对照常微分方程的级数解法 ( ) ( ) ( ) 2 2 -2 1 , , 1- 1- x l l p x q x x x + 此处 = = 它们在x=0点邻域均解析,故x=0为该方程 的常点,从而可令
2) k=0 代入(1)得 ∑k(k-)lcx2-∑k(-1)cx2-2∑kcx2 k=1 1(7+1)∑cx=0 x0:2·l2+(1+1)cn=0 (+1) 2·1 0
0 2 k k k y c x ¥ = = å () 代入(1),得 ( ) ( ) -2 2 2 1 -1 - -1 - 2 k k k k k k k k k k k c x k k c x kc x ¥ ¥ ¥ = = = å å å ( ) 0 1 0 k k k l l c x ¥ = + + = å 0 2 0 x : 2 × lc +(l l c + = 1) 0 2 0 ( 1) 2 1 l l c c + \ = ×
x1:3,2c3-2c1+l(l+1l1=0 (+1)-2 3.2 [(+1)-k(k+1 k+2 (k+2)(+1) 2+l-2.3 2(-2)(+1)(1+ (-1)
1 3 1 1 x : 3× 2c - 2c + l(l c + = 1) 0 3 1 ( 1)-2 - 3 2 l l c c + \ = × [ ] ( ) 2 ( 1) - ( 1) : - 3 ( 2) ( 1) k k k l l k k x c c k l + + + = + × + 2 4 2 - 2 3 - 4 3 l l c c + × \ = × ( ) 2 ( ) ( )( ) 0 - 2 1 3 -1 4! l l l l c + + =
(2n) 2n+1 yn+(-2+3)(-(+2(+4)(+2x (2n+1)!
( ) 2 ( )( )( )( ) 5 1 - 3 -1 2 4 -1 5! l l l l c c + + = 2n c = ( ) ( )( ) ( )( ) ( ) ( ) ( ) 0 - 2 2 - 2 4 ... 1 3 ... 2 -1 -1 4 2 ! n l n l n l l l l n c n + + + + + 2n+1 c = ( ) ( )( ) ( )( )( ) ( ) ( ) 1 ( ) - 2 1 - 2 3 ... -1 2 4 ... 2 -1 5 2 1 ! n l n l n l l l l n c n + + + + + +
故y=∑c k=0 C1x+∑C =y(x)+y1(x) 式中y(x)=c+2cnx(6) n=1 V(x=cxi cent/2n+ n-
k k k=0 y = c x ∞ 故 å 2 2 0 2 1 2 1 1 1 0 1 ( ) ( ) n n l n n n n c c x c x c x y x y x ¥ ¥ + + = = = + å å + + = + ( ) ( ) 2 0 0 2 1 6 n n n y x c c x ¥ = 式中 = + å ( ) ( ) 2 1 1 1 2 1 1 7 n n n y x c x c x ¥ + + = = + å