using the center of mass equations or the Center of Mass Calculator (under Binary Star Basics, abova), you will investigate a specific binary star system. Assume that Star 1 has 3 star masses, Star 2 has m₂-09 solar masses, and the total separation of the two (R)is 1440 (One AU is Earth's average distance from the Sun) (a) what is the distance, d. (in Au) from Stars to the center of mass? AU (8) What is the distance, dy On Au) from Star 2 to the center of mass AU ( what is the ratio of
using the center of mass equations or the Center of Mass Calculator (under Binary Star Basics, abova), you will investigate a specific binary star system. Assume that Star 1 has 3 star masses, Star 2 has m₂-09 solar masses, and the total separation of the two (R)is 1440 (One AU is Earth's average distance from the Sun) (a) what is the distance, d. (in Au) from Stars to the center of mass? AU (8) What is the distance, dy On Au) from Star 2 to the center of mass AU ( what is the ratio of
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Transcribed Image Text:using the center-of-mass equations or the Carter of Mass Calculator (under Binary-Star Basics, abova), you will investigate a specific binary star system. Assume that Star 1 has m, 3.2 solar masses, Star 2 has m,-0.9 solar masses, and the total separation of
the two (R) is 34 All (One AU is Earth's average distance from the Sun)
(2) What is the distance, d. (In Au) from Star 1 to the center of mass?
AU
(b) What is the distance, dy On Au) from Star 2 to the center of mass
AU
( what is the ratio of d, tod?
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