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Stars within the bulge of the Milky Way, including our Sun, orbit around the galactic center under the influence of gravity. The bulge is a densely populated region in the central part of our galaxy, characterized by a high concentration of stars.

The gravitational force exerted by the combined mass of all the stars, gas, and other matter within the bulge determines the motion of individual stars. The distribution of mass within the bulge is not uniform, which leads to variations in gravitational forces experienced by stars at different locations.

As a result, stars in the bulge follow orbital paths around the galactic center. These orbits can be roughly described as elliptical or elongated in shape. The exact nature of these orbits depends on the initial conditions of the star's formation and subsequent gravitational interactions with nearby objects.

It's important to note that the dynamics of the bulge region are complex and influenced by various factors, including the gravitational pull from the galactic disk, spiral arms, and other components of the Milky Way. The interaction of these gravitational forces can result in a complex motion pattern for stars within the bulge.

Observing and understanding the orbital dynamics of stars within the bulge is an active area of research in astrophysics. Techniques such as stellar kinematics, which study the motion and velocities of stars, help scientists unravel the complex dynamics of the Milky Way's bulge and provide insights into its formation and evolution.

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