a_u = u_par(:,4);
Om_u = u_par(:,5);
i_u = u_par(:,6);
omg_u = u_par(:,7);
T_u = u_par(:,8);
u_u = u_par(:,9);
clear u_par;
load u_f.dat;
Fz_u = u_f(:,2);
Fs_u = u_f(:,3);
Fl_u = u_f(:,4);
Fa_u = u_f(:,5);
U20_u = u_f(:,6);
clear u_f;
s_tmp = size(t_u);
s_m_u = s_tmp(1);
clear s_tmp;
ws = 2*pi/(365.2422*24*3600);
for j = 1:s_m_u, tmp(j) = Om_n0+ws*t_u(j);
end
Om_n_u = tmp';
clear tmp;
plot(t_u,p_u,'y-',[min(t_u) max(t_u)],[p_n p_n],'r-'), title (' Фокальный параметр '), grid on;
print -dwin;
pause;
plot(t_u,p_u-p_n,'y-'), title (' dp '), grid on;
print -dwin;
pause;
plot(t_u,e_u,'y-',[min(t_u) max(t_u)],[e_n e_n],'r-'), title (' Эксцентриситет '), grid on;
print -dwin;
pause;
plot(t_u,e_u-e_n,'y-'), title (' de '), grid on;
print -dwin;
pause;
plot(t_u,a_u,'y-',[min(t_u) max(t_u)],[a_n a_n],'r-'), title (' Большая полуось орбиты '), grid on;
print -dwin;
pause;
plot(t_u,a_u-a_n,'y-'), title (' da '), grid on;
print -dwin;
pause;
plot(t_u,Om_u*r_g,'y-',t_u,Om_n_u*r_g,'r-'), title (' Долгота восходящего узла '), grid on;
print -dwin;
pause;
plot(t_u,Om_u*r_g-Om_n_u*r_g,'y-'), title (' dOm '), grid on;
print -dwin;
pause;
plot(t_u,i_u*r_g,'y-',[min(t_u) max(t_u)],[i_n*r_g i_n*r_g],'r-'), title (' Наклонение '), grid on;
print -dwin;
pause;
plot(t_u,i_u*r_g-i_n*r_g,'y-'), title (' di '), grid on;
print -dwin;
pause;
plot(t_u,T_u,'y-',[min(t_u) max(t_u)],[T_n T_n], 'r-'), title (' Период '), grid on;
print -dwin;
pause;
plot(t_u,T_u-T_n,'y-'), title (' dT '), grid on;
print -dwin;
pause;
clear all