7. A binary star system consists of two stars-one star with a mass of 4.0 x 1036 kg and the second star having a mass of 3.1 x 1034 kg-that are separated by a distance of 3 x 1012 m. a) Determine the center of mass of the binary star system relative to the position of each star. b) Find the moment of inertia of the binary star system rotating around its center of mass. r= 3.0 x1012 m Тсм m, = 3.1 x1034 kg m;= 4.0 ×1036 kg
7. A binary star system consists of two stars-one star with a mass of 4.0 x 1036 kg and the second star having a mass of 3.1 x 1034 kg-that are separated by a distance of 3 x 1012 m. a) Determine the center of mass of the binary star system relative to the position of each star. b) Find the moment of inertia of the binary star system rotating around its center of mass. r= 3.0 x1012 m Тсм m, = 3.1 x1034 kg m;= 4.0 ×1036 kg
University Physics Volume 1
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Chapter11: Angular Momentum
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A binary star system consists of two stars (one star with a mass of 4.0 x 10^36 kg and the second star having a mass of 3.1 x 10^34 kg) that are separated by a distance of 3 x 10^12 m.
a) Determine the center of mass of the binary star system relative to the position of each star.
b) Find the moment of inertia of the binary star system rotating around its center of mass.
Transcribed Image Text:7. A binary star system consists of two stars-one star with a mass of 4.0 x 1036 kg and the second star
having a mass of 3.1 x 1034 kg-that are separated by a distance of 3 x 1012 m. a) Determine the center
of mass of the binary star system relative to the position of each star. b) Find the moment of inertia of
the binary star system rotating around its center of mass.
r= 3.0 x1012 m
Тсм
m, = 3.1 x1034 kg
m;= 4.0 ×1036 kg
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