... 3 ba d ws1 + ms b ( M ) d b , 1 1 V w l = mb ( M , a ) b + ms s 2 ( M ) ws2 + s2 2 ... 3], э d 0 = l1ws3 - l 2F [3] + f (b m , s н ) + l 7F [2]. н Здесь F [1], F [2], F [3 ...
... 3.1) J2 2J1 -c2 )/2c 1 в exp 1- s2 it , (3.2) (3.3) (3.4) Using natural changes of ... 3.5) is equivalent to the following complex, linear, nonautonomous, Hamiltonian ...
... 3 ( u 2 + u 2 ) + bt(1- t 2 ) - bH tu (1- t 2 ) 2 1 2 12 can be supplemented with ... of the body in the Chaplygin functions (2.3) (Fig. 3) are still taken into account ...
... 3]) establishes a corresp ondence b etween any function of the variable x and a ... 3 ds ds ds It is easy to see that there is a unique functional dep endence b etween ...
... 3), (4) is three-dimensional and there exist asymptotic limit sets in it, relation (6) de?nes a unique analytic (even ... Taking into account all what was said, we can write Eq. (35) in the form ?4 ? 3 о!1 ??3 Р 4 о?!3 !5 ? !2 !4 о М 0; ?2 ? 4 о!2 ?? ...
... 1) (3.2) This result helps us to set up functional classes {R}, {}, and {F }. s 3.1 ... we will consider system (4.3)н(4.5) with reference conditions (3.1), (3.2) (or (3.6 ...