What is the minimum diameter mirror on a telescope that would allow you to see details...

(1)(A) You shine an orange laser (587 nm) on a double slit in an experiment you...

(1)(A) You shine an orange laser (587 nm) on a double slit in an experiment you perform in your physics lab. Measuring with a protractor you see that the interference pattern makes the first fringe at 11.0° with the horizontal. What is the separation between the slits? (B)What is the separation between two slits for which 650 nm light has its first minimum at an angle of 31.5°? (C)What is the wavelength of light falling on double slits separated by...

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...

Question 12 The lens of a telescope has a diameter of 25 cm. You are using...

Question 12 The lens of a telescope has a diameter of 25 cm. You are using it to look at two stars that are 2 × 1017 m away from you and 6 × 109 m from each other. You are measuring light with a wavelength of 700 nm. As the light goes through the lens, it diffracts. a. Is it possible, using this telescope, to see the two stars as separate stars? b. What is the minimum possible lens...

(a) Take the diameter of the pupil of Cyclops’s eye to be 6.5 mm, and calculate...

(a) Take the diameter of the pupil of Cyclops’s eye to be 6.5 mm, and calculate the resolution angle Theta = 1.22 Lamda/ D (rad) for light of wavelength 550 nm. For two point-objects to be resolvable with light of this wavelength, how far apart must they be (i) at distance 100 m? (ii) on the moon, 400,000 km away? (b) How far apart must they be on the moon to be resolvable with a telescope mirror of diameter 6.5...

a) The Mount Palomar telescope has an objective mirror with a 508 cm diameter. Determine its...

a) The Mount Palomar telescope has an objective mirror with a 508 cm diameter. Determine its angular limit of resolution at a wavelength of 550 nm (in radiants and degrees). (Recall that you can resolve two objects only if the maxima of their images are separated by at least the radius of the first dark fringe of each image’s Airy disk). b) How far apart must two objects be on the surface of the Moon if they are to be...

(a) A large optical telescope with an aperture of diameter 2.4 m is used to study...

(a) A large optical telescope with an aperture of diameter 2.4 m is used to study the Moon. What is the size of the smallest feature on the Moon that this telescope can resolve using blue light which has a wavelength of λ = 400 nm? (b) Calculate the size of the smallest object on Mars that this telescope can resolve. Assume Mars is at its closest distance 7.8 × 1010 m from the Earth. Ignore the effect of the Earth’s...

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.

Suppose that you wish to construct a telescope that can resolve features 9.0 km across on...

Suppose that you wish to construct a telescope that can resolve features 9.0 km across on the moon, 384,000 km away. You have a 3.7 ?m -focal-length objective lens whose diameter is 13.0 cm . Part A What focal-length eyepiece is needed if your eye can resolve objects 0.10 mm apart at a distance of 25 cm? Express your answer using two significant figures. In cm Part B What is the resolution limit set by the size of the objective...

The telescopes on some commercial surveillance satellites can resolve objects on the ground as small as...

The telescopes on some commercial surveillance satellites can resolve objects on the ground as small as 94 cm across (see Google Earth), and the telescopes on military surveillance satellites reportedly can resolve objects as small as 10 cm across. Assume first that object resolution is determined entirely by Rayleigh's criterion and is not degraded by turbulence in the atmosphere. Also assume that the satellites are at a typical altitude of 396 km and that the wavelength of visible light is...

A scientist requires the construction of a diffraction-limited telescope to image small dunes on Mars. The...

A scientist requires the construction of a diffraction-limited telescope to image small dunes on Mars. The telescope will be mounted on a spacecraft instrument platform. The spacecraft will orbit Mars at an altitude of 500 km. The dunes are 1 m in diameter (horizontal size, as seen from above). The wavelength of instrument operation is 600 nm. The large-format detector is a CCD with 4096x4096 array of pixels, where each pixel is 20x20 microns in size. The scientist requires that...