-
.
.
1.
1.1
1.2 , ..
1.3 ⅅ
2. .
3. .
3.1 , .
3.2
3.3
3.4
. , , .
, , , .
, . . , , . . - , - .
, , . . .
( )
1. .
1.1 .
r= =0,5 = = .
l= =/λ= = .
(. 1).
1.2 , .
, : .
.
S′′=r (Cos ).
|
|
.1 (.2).
.
S= = .
S′= = .
S′′= = .
= .
1.3 .
1 2
= = n1/30= = -1.
(.3).
.
.
1 2
= n1/30= = -1.
VA= = /.
VB . VBA .
VA =100 . K V =(VA/pa)= = (/)/.
, VB
VBA. b .
= = /.
= = /.
C .
VB= S′ * = = /.
( 4).
.
.
,
= = /2.
. . = = /2.
=100., . a=a/ qa = = (/2)/.
, . = = .
. , . .
= = /2.
.
= S′′* 2 = = /2.
(β=270⁰)
.1
.2
.3
.4
.1
φ . | S | S | S | γ . |
, e:
1. P , .
Ÿ .
2. = = .
.
3. .
|
|
4. 1 .
5. . , .
.
- , .
, , .
3=-m3* S′′* 2 = = = .
.
Q=(+G3*Cosβ-m3*S''*ω2)
β .
Q = = .