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6) Suppose that two stars in a binary system are separated by a distance of 1...
Suppose your Newtonian reflect has an objective mirror 10 cm (4 inches) in diameter. a) What...
Suppose your Newtonian reflect has an objective mirror 10 cm (4 inches) in diameter. a) What is the telescope's diffraction-limited angular resolution when used with yellow light of wavelength 600 nm? b) A binary star is a system of two stars orbiting each other. Suppose you are observing a binary star consisting of two yellow stars having an angular separation of 0.5 arc-seconds. Will your telescope be able to resolve the two stars? Explain your answer. c) Would you be...
To be able to better resolve two stars that are close together using a telescope, what...
To be able to better resolve two stars that are close together using a telescope, what should you do? To be able to better resolve two stars that are close together using a telescope, what should you do? a.Use a larger diameter lens or mirror b.Gather light for a longer time c.Use a higher magnification d.View the stars using longer wavelength light
Need help with this problem. Thanks. Binary Stars Q1) A binary star system has a distance...
Need help with this problem. Thanks.
Binary Stars Q1) A binary star system has a distance from Earth of 42.2 light years. The distance between the stars is 1.08 x 101 m and the rotation period is 104 days. Assume equal masses of the stars, and circular orbits (centre of mass of the system is at rest relative to the Earth). a) Calculate the speed of the stars relative to the centre of mass of the system. Further assume the...
A certain binary star system consists of two stars with masses m1 and m2, separated by...
A certain binary star system consists of two stars with masses m1 and m2, separated by a distance b. A comet, originally nearly at rest in deep space, drops into the system and at a certain point in time arrives at the midpoint between the two stars. For that moment in time, find its velocity, v, symbolically in terms of b, m1, m2, and fundamental constants. p
Two stars are 5.3 × 1011 m apart and are equally distant from the earth. A...
Two stars are 5.3 × 1011 m apart and are equally distant from the earth. A telescope has an objective lens with a diameter of 1.08 m and just detects these stars as separate objects. Assume that light of wavelength 490 nm is being observed. Also, assume that diffraction effects, rather than atmospheric turbulence, limit the resolving power of the telescope. Find the maximum distance that these stars could be from the earth.
Two stars are 4.0 × 1011 m apart and are equally distant from the earth. A...
Two stars are 4.0 × 1011 m apart and are equally distant from the earth. A telescope has an objective lens with a diameter of 1.86 m and just detects these stars as separate objects. Assume that light of wavelength 480 nm is being observed. Also, assume that diffraction effects, rather than atmospheric turbulence, limit the resolving power of the telescope. Find the maximum distance that these stars could be from the earth.
The next generation of large telescopes includes a proposed 30 m telescope on top of Mauna...
The next generation of large telescopes includes a proposed 30 m telescope on top of Mauna Kea in Hawaii. If this telescope is pointed towards two identical stars which orbit around each other at the Neptune-Sun distance of 4.5 billion km = 4.5 × 10^12m, what is the maximum distance in meters between Earth and the two stars at which the telescope can still resolve them? Assume that the telescope observes light with a wavelength of 500 nm. The answer...
Astronomers have discovered a planetary system orbiting a star, which is at a distance of 5.2...
Astronomers have discovered a planetary system orbiting a star, which is at a distance of 5.2 × 1018 m from the earth. One planet is believed to be located at a distance of 1.9 × 1010 m from the star. Using visible light with a vacuum wavelength of 557 nm, what is the minimum necessary aperture diameter that a telescope must have so that it can resolve the planet and the star?
Astronomers have discovered a planetary system orbiting a star, which is at a distance of 3.9...
Astronomers have discovered a planetary system orbiting a star, which is at a distance of 3.9 × 1019 m from the earth. One planet is believed to be located at a distance of 1.9 × 1010 m from the star. Using visible light with a vacuum wavelength of 543 nm, what is the minimum necessary aperture diameter that a telescope must have so that it can resolve the planet and the star?
The Hubble Space Telescope has a mirror diameter of 2.4 m. Suppose the telescope is used...
The Hubble Space Telescope has a mirror diameter of 2.4 m. Suppose the telescope is used to photograph stars near the center of our galaxy, 30,000 light years away, using red light with a wavelength of 720 nm . A) What's the distance (in km) between two stars that are marginally resolved? The resolution of a reflecting telescope is calculated exactly the same as for a refracting telescope. B) For comparison, what is this distance as a multiple of the...
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Binary Stars Q1) A binary star system has a distance from Earth of 42.2 light years. The distance between the stars is 1.08 x 101 m and the rotation period is 104 days. Assume equal masses of the stars, and circular orbits (centre of mass of the system is at rest relative to the Earth). a) Calculate the speed of the stars relative to the centre of mass of the system. Further assume the...
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