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We investigate, through two-dimensional MHD numerical simulations, the interaction of a uniform magnetic field oblique to a moving interstellar cloud. In particular we explore the transformation of cloud kinetic energy into magnetic energy as a result of field line stretching. Some previous simulations have emphasized the possible dynamical importance of a "magnetic shield" formed around clouds when the magnetic field is perpendicular to the cloud motion. It was not clear, however, how dependent those findings were on the assumed field configuration and cloud properties. To expand our understanding of this effect, we examine several new cases by varying the magnetic field orientation angle with respect to the cloud motion (theta), the cloud-background density contrast, and the cloud Mach number. We show that in two dimensions and with theta large enough, the magnetic field tension can become dominant in the dynamics of the motion of high density contrast, low Mach number clouds. In such a case, a significant fraction of the cloud's kinetic energy can be transformed into magnetic energy with the magnetic pressure at the cloud's nose exceeding the ram pressure of the impinging flow. We derive a characteristic timescale, tau(ma), for this process of energy "conversion." We find also that unless the cloud motion is highly aligned with the magnetic field, reconnection through tearing-mode instabilities in the cloud wake limits the formation of a strong flux-rope feature following the cloud. Finally we attempt to interpret some observed properties of the magnetic field in view of our resultsopen141
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