:
R = / ( + ) 100 %.
. 2.5, . 2.2.
2.5
(-) | |||
i - | |||
i - | |||
, . | |||
. 2.2.
3.
, , .
, , , .
, , , , .
, .
3.1.
1. F 1, -/., (Q . Q .) (/.) (V e V e):
F 1 = Q . ∙ V e + Q . ∙ V e.
2. F 2, . /., (f ) (Q . + Q .) (t ) :
;
3. F 3, . /-, , . /., F 1:
;
,
.
4. F 4, . /-., - ( 2.7.) Q
|
|
.
5. F 5, , (Q . + Q .) , (n ):
F 5 = n ∙ (Q . + Q .).
6. F 6, . / , (, . . 2.5) (Q ), ..
.
7. F 7, , i -
,
,
Gi 2.3.2.
3.2.
1. P 1, . / , ( ) (Q )
.
2. P 2, . /. , ( ) W .., . ; (1 . = 2,83 3 )
.
3. P 3, 3/ , (L), () () (Q ):
.
4. P 4, . ./ , (N) (Q ):
.
5. 1 P 5, . /-, () (Q ):
.
6. 1 P 6, -./, (Q ) /.(V ):
.
7. P 7, 3/ , (W c) (Q ):
.
8. P 8, /, (Q ) ( ):
.
9. P 9, /, (Q ) (L). . 6.
.
3.3.
i - () j - , 3.1, (K CFji).
, , . F 1, F 2, F 4, F 5, F 6, F 6, F 7. (Fji) .
,
F max ji j - i - .
F 3
,
Fji min j - , .. , .
|
|
, 1.
i - c i . :
,
m = 7.
. 3.1.
3.1
() | ||||||
(F 1) | ||||||
(F 2) | ||||||
(F 3) | ||||||
(F 4) | ||||||
(F 5) | ||||||
(F 6) | ||||||
(F 7) | ||||||
() |
3.4.
(K ji) i - () j - , 3.3 .
4, 7, 8 ()
,
, , .
1, 2, 3, 5, 6 9
,
, , . , 1.
n = 9.
. 3.2.
3.2
C
() | ||||||
(P 1) | ||||||
(P 2) | ||||||
( 3) | ||||||
( 4) | ||||||
1 ( 5) | ||||||
1 ( 6) | ||||||
( 7) | ||||||
1 ( 8) | ||||||
1 ( 9) | ||||||
() |
4.
4.1. -
.
|
|
n
= S i 12(1+),
I = 1
i ;
, . = 0,30 (
, ). .
. 4.1.
4.1
, . | |
1. | |
2. | |
3. | |
4. | |
5. | |
6. | |
4.2. ,
.
= . . . i = i ∙ ni; i = ∙ n i.
, - .
= , .. . i = i ∙ n i, i = i ∙ n i,
n i , .