In a certain binary-star system, each star has the same mass which is 3.8 times that...

Suppose that a binary star system consists of two stars of equal mass. They are observed...

Suppose that a binary star system consists of two stars of equal mass. They are observed to be separated by 360 million kilometers and take 5.0 Earth years to orbit about a point midway between them. What is the mass of EACH?

Suppose that a binary star system consists of two stars of equal mass. They are observed...

Suppose that a binary star system consists of two stars of equal mass. They are observed to be separated by 325 million kilometers and take 4.00 Earth years to orbit about a point midway between them. What is the mass of each?

A binary star system consists of two equal mass stars that revolve in circular orbits about...

A binary star system consists of two equal mass stars that revolve in circular orbits about their center of mass. The period of the motion, T = 26.4 days, and the orbital speed v = 220 km/s of the stars can be measured from telescopic observations. What is the mass (kg) of each star? Best answer goes to the correct answer with steps thank you

A binary pulsar is a system of two neutron stars of equal mass (each about 1.4...

A binary pulsar is a system of two neutron stars of equal mass (each about 1.4 times the mass of the sun and a radius of 10km). A particular binary pulsar has two neutron stars orbiting around their center of mass, and separated by a (center to center) distance of d= 7.0*10^8m. Assume the orbit is circular. a) Calculate the orbital speed of the stars in meters/second. b) Calculate the magnitude of the centripetal acceleration of one of the stars...

Two stars M_1 and M_2 of equal mass make up a binary star system. They move...

Two stars M_1 and M_2 of equal mass make up a binary star system. They move in a circular orbit that has its center at the midpoint of the line that separates them. If M_1=M_2=5.45 sm (solar mass), and the orbital period of each star is 2.70 days, find their orbital speed. (The mass of the sun is 1.99x10^30kg). Point fully awarded to correct answer with full break-down of formulas that led to correct answer.

A double-star system with each star having the mass of the Sun has an orbital period...

A double-star system with each star having the mass of the Sun has an orbital period of 1 year. A second double star system, also with each star having the mass of the Sun, has an orbital period of 8 years. If the separation of the stars in the first system is d and the orbits in both cases are circular, what is the separation of the stars in the second system? 8d 0.5d 4d 2d

A binary star system consists of two stars revolving about their common center of mass. If...

A binary star system consists of two stars revolving about their common center of mass. If we observe the light reaching us from one of these stars as it makes one complete revolution, what does the Doppler effect predict will happen to this light?

For a binary system, Kepler's 3rd law says that the average distance between the stars cubed...

For a binary system, Kepler's 3rd law says that the average distance between the stars cubed divided by the time to complete an orbital cycle squared = sum of masses of binary stars (all in astronomical units, earth-sun distance). If this value is coined constant A, and Sa and Sb are respectively the average distance from each star to center of mass of the system, find the masses of two stars separately in terms of A, Sa and Sb.

In a binary star system, one star is three times heavier than the other. If the...

In a binary star system, one star is three times heavier than the other. If the period of the system is 100 years, and they are (on average) 50 au apart, what are the individual masses of the two stars?

1) A visual binary star system has been observed for forty years. In that time the...

1) A visual binary star system has been observed for forty years. In that time the two stars have completed 1⁄4 of their orbit around “each other” (actually around their mutual centre of mass). They are just far apart enough that our observations indicate that they are in circular orbits - they have stayed a constant 3.0 arcseconds apart since they were first observed. One of the two stars is a G2V star, identical to our Sun, and therefore has...