Estimating the mass of the Milky Waya) Assuming the Sun moves in a circular orbit of radius 8 kiloparsecs around the center of the Milky Way, and that its orbital speedis 220 km/s, calculate how many years it takes the Sun to complete one orbit of the Galaxy. Remember to convert kiloparsecs tokilometers.b) Using the modified form of Kepler's third law (introduced in Lecture 13, for measuring the combined masses of binary stars),R³m+ M = estimate the mass of the Milky Way enclosed within 8 kpc (Sun's orbit radius). The mass of the Milky Way insidep²Ithe Sun's orbit can be represented as a single mass (M) located at its center, and the mass of the Sun (m) can be consideredinfinitesimally small compared to the Milky Way's (i.e., m < M).c) Is this estimate of the Milky Way's mass an upper or lower limit? Explain your reasoning.

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Question

Estimating the mass of the Milky Way
a) Assuming the Sun moves in a circular orbit of radius 8 kiloparsecs around the center of the Milky Way, and that its orbital speed
is 220 km/s, calculate how many years it takes the Sun to complete one orbit of the Galaxy. Remember to convert kiloparsecs to
kilometers.
b) Using the modified form of Kepler's third law (introduced in Lecture 13, for measuring the combined masses of binary stars),
R³
m+ M = estimate the mass of the Milky Way enclosed within 8 kpc (Sun's orbit radius). The mass of the Milky Way inside
p²
I
the Sun's orbit can be represented as a single mass (M) located at its center, and the mass of the Sun (m) can be considered
infinitesimally small compared to the Milky Way's (i.e., m < M).
c) Is this estimate of the Milky Way's mass an upper or lower limit? Explain your reasoning.

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