The kinematics and structures of molecular cloud cores associated with massive YSOs were analyzed from the various 13 CO(1→0) line profiles.

On the basis of 3-fluid equations for molecular clouds, a weakly ionized plasma, the magnetic induction equation is derived including the impact of turbulent waves on electrons, which are generated by the drift wave instability.

The density and magnetic field strength of the dense cores in the Orion B molecular cloud are derived from the observed radius and FWHM line width based on the model of a whforllily magnetic sphere.

The effect of the step for the short self-gravitation of molecular clouds is studied by means of numerical simulation.

The formation of giant molecular clouds (GMCs) by aggregation in a rigidly rotating disk galaxy is studied.

Measuring magnetic field of molecular clouds is very crucial to many unanswered ques- tions.

In order to study the effect of the gravitational instability in the formation and evolution of giant molecular cloud models (GMCs) in galaxies, the differential rotation models are developed by means of computer simulation methods.

Two models of molecular cloud in disk galaxies are proposed to investigate the formation of giant molecular clouds (GMCs) under the gravitational instability and random collision using PP(Particle Particle) simulation.