Two stars located 30 light-years from Earth are barely resolved using a reflecting telescope having a...

Two stars 15 light-years away are barely resolved by a 69 −cm (mirror diameter) telescope. How...

Two stars 15 light-years away are barely resolved by a 69 −cm (mirror diameter) telescope. How far apart are the stars? Assume λ=560nm and that the resolution is limited by diffraction. Express your answer using two significant figures.

Two stars 12 light-years away are barely resolved by a 220cm (mirror diameter) telescope. How far...

Two stars 12 light-years away are barely resolved by a 220cm (mirror diameter) telescope. How far apart are the stars in meters? Assume ?=550nm and that the resolution is limited by diffraction. Express your answer using two significant figures.

Two stars 15 light-years away are barely resolved by a 75 cmcm (mirror diameter) telescope. 1ly=9.461×10^15...

Two stars 15 light-years away are barely resolved by a 75 cmcm (mirror diameter) telescope. 1ly=9.461×10^15 m How far apart are the stars? Assume λλ = 550 nm and that the resolution is limited by diffraction. Express your answer to two significant figures and include the appropriate units.

(a) What is the angular separation of two stars if their images are barely resolved by...

(a) What is the angular separation of two stars if their images are barely resolved by a refracting telescope with a lens diameter of 94 cm and a focal length of 14 m. Assume ? = 550 nm. (b) Find the distance between these barely resolved stars if each of them is 8.7 light-years distant from Earth. (c) For the image of a single star in this telescope, find the diameter of the first dark ring in the diffraction pattern...

Two stars are 5.8 × 1011 m apart and are equally distant from the earth. A...

Two stars are 5.8 × 1011 m apart and are equally distant from the earth. A telescope has an objective lens with a diameter of 1.21 m and just detects these stars as separate objects. Assume that light of wavelength 470 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.

32.5: The primary mirror of the Hubble Space Telescope is 2.4 m in diameter. Suppose it...

32.5: The primary mirror of the Hubble Space Telescope is 2.4 m in diameter. Suppose it is most sensitive to light of wavelength of 820 nm.    a) What is the diffraction limited angular resolution of the Hubble Space Telescope?    b) If the HST were used to look at the surface of the Moon, what is the minimum distance between two distinguishable points? (The Moon orbits at a distance of 384000 km from the center of the Earth which...

2. Treat each of your eyes as a circular aperture of diameter 3.5 mm. Light of...

2. Treat each of your eyes as a circular aperture of diameter 3.5 mm. Light of wavelength 625 nm is used to view two point sources that are 10.5 cm apart. How far distance can these sources be and still be marginally resolved by your eye? Assume that the resolution is diffraction limited and use Rayleigh's criterion, and the index of refraction of the fluid in the eye is 1.35. 3. A Michelson interferometer uses light with a wavelength of...

You see a light approaching you from a distance on the highway. Is it a motorcycle...

You see a light approaching you from a distance on the highway. Is it a motorcycle (one light) or a car (two lights)? You may assume the air is perfectly clear and still, and the headlights emit exclusively blue light (λ = 475 nm). Assume your pupil (the aperture of your eye) is 5 mm in diameter. If a car with two blue headlights that are separated by 1.5 meters is approaching you, at what maximum distance could you still...