Two equal-mass stars maintain a constant distance apart of 7.3×1011 mm and rotate about a point midway between them at a rate of one revolution every 13.0 yr.
1) Why don't the two stars crash into one another due to the gravitational force between them?
2) What must be the mass of each star?
Two equal-mass stars maintain a constant distance apart of 7.3×1011 mm and rotate about a point...
Two equal-mass stars maintain a constant distance apart of 1.1×1011 m and rotate about a point midway between them at a rate of one revolution every 16.6 yr . PART A: Why don't the two stars crash into one another due to the gravitational force between them? PART B:What must be the mass of each star?
Two equal-mass stars maintain a constant distance apart of 1.7×1011 m and rotate about a point midway between them at a rate of one revolution every 21.6 yr . A) Why don't the two stars crash into one another due to the gravitational force between them? B) What must be the mass of each star? (Express your answer using two significant figures.)
Two equal-mass stars maintain a constant distance apart of 7.4×1011 m and rotate about a point midway between them at a rate of one revolution every 15.0 yr. 1) What must be the mass of each star?
Two equal-mass stars maintain a constant distance apart of 7.6x1011 m and rotate about a point midway between them at a rate of one revolution every 15.0 yr Part B What must be the mass of each star? Express your answer using two significant figures. || ΑΣφ ? M = 1460.69 · 1044 kg Submit Previous Answers Request Answer X Incorrect; Try Again
Two stars of equal mass form a binary system. If the two stars have an average separation of 7.38 x 108 km, and the magnitude of the gravitational force is 2.23×1027 N between the stars, find the mass of each star in kg. Express your result in scientific notation and to three significant digits. Be careful with units!
Two stars of equal mass form a binary system. If the two stars have an average separation of 7.38 x 108 km, and the magnitude of the gravitational force is 3.03×1027 N between the stars, find the mass of each star in kg. Express your result in scientific notation and to three significant digits. Be careful with units! (Please help! Correct answers will receive thumbs up)
The force of gravity between two stars is N Newtons. If the distance between the stars could be quartered, the mass of star 1 be doubled and the mass of star 2 be tripled, what would happen to the force of gravity between them?
Two black holes (the remains of exploded stars), separated by a distance of 10.0 AU (1 AU = 1.50 ✕ 1011 m), attract one another with a gravitational force of 6.70 ✕ 1025 N.The combined mass of the two black holes is 5.60 ✕ 1030 kg. What is the mass of each black hole? largest value kg smallest value kg
In a double-star system, two stars of mass 4.0 x 1030 kg each rotate about the system's center of mass at radius 1.8 x 1011 m. (a) What is their common angular speed? (b) If a meteoroid passes through the system's center of mass perpendicular to their orbital plane, what minimum speed must it have at the center of mass if it is to escape to "infinity" from the two-star system? (a) Number Units (b) Number Units
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Plaskett's binary system consists of two stars that revolve In a circular orbit about a center of mass midway between them. This statement implies that the masses of the two stars are equal (see figure below). Assume the orbital speed of each star is |v | = 240 km/s and the orbital period of each is 12.5 days. Find the mass M of each star. (For comparison, the mass of our Sun is 1.99 times 1030 kg Your answer...