<span class="word">The <span class="word"><span class="changedDisabled">Effect <span class="word">of <span class="word"><span class="changedDisabled">Wind <span class="word">and <span class="word"><span class="changedDisabled">Radiation <span class="word"><span class="changedDisabled">Pressures <span class="word">from <span class="word allCaps">OB-<span class="word"><span class="changedDisabled">Type <span class="word"><span class="changedDisabled">Stars <span class="word">on <span class="word"><span class="changedDisabled">Star-<span class="word"><span class="changedDisabled">Forming <span class="word"><span class="changedDisabled">Molecular <span class="word"><span class="changedDisabled">Clouds

The investigation into the effects of wind and radiation pressures emitted by OB-type stars on star-forming molecular clouds constitutes a crucial area of research within astrophysics. As OB stars expel mass and release radiative energy, they exert pressure on nearby molecular clouds. This paper explores the impact of both wind and radiation pressure from OB stars on molecular clouds, examining how these forces influence the critical mass of the clouds in question. The approach taken involves a theoretical or mathematical framework, complemented by numerical analysis that utilizes a range of parameters associated with OB stars and molecular clouds. The findings indicate that an increase in wind and radiation pressure from OB stars leads to a reduction in the critical mass of the molecular cloud. This suggests that these pressures can have a dual effect, either dispersing or compressing the molecular cloud they affect. Furthermore, it was determined that the combined influence of wind and radiation pressure is more pronounced than the effects of either force acting independently, with radiation pressure demonstrating a somewhat greater impact than wind pressure based on the results obtained.