Mass of the Milky Way's Halo. The Large Magellanic Cloud orbits the Milky Way at a distance of roughly 160,000 light-years from the galactic center and a velocity of about 300 km/s. Use these values in the orbital velocity law (Mathematical Insight 19.1) to estimate the Milky Way's mass within 160,000 light-years from the center. (The value you obtain is a fairly rough estimate because the orbit of the Large Magellanic Cloud is not circular.)

Question

contestada

Respuesta :

ShubhamSrivastava ShubhamSrivastava · Answer 1 · 2022-11-29T20:59:55+01:00

The approximate mass of the galaxy within 160,00 light-years of the center is 2.0x10^42 kilograms.

To find the mass within 160,000 light-years of the center of the galaxy, we will use the orbital velocity law:

M(r)= (rv^2)/G

To use this law, we need to convert the radius and the speed of the Large Magellanic Cloud into meters and meters per second.
We are told that the orbital radius is 160,000 light-years. Since 1 light-year is 9.46x10^15 meters, this is the same as 1.51x10^21 meters.
The speed is given as 300 kilometers per second, which we can easily convert to 3.0x10^5 meters per second.
Putting the given values into the orbital velocity law, we learn that the approximate mass of the galaxy within 160,00 light-years of the center is 2.0x10^42 kilograms, or about 1 trillion times the mass of the Sun.

Hence, mass of the galaxy within 160,00 light-years of the center is 2.0x10^42 kilograms.

To know more about space physics visit:

https://brainly.com/question/12909538

#SPJ4