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

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...

Calculate the limiting angle of resolution for the eye, assuming a pupil diameter of 1.75 mm,...

Calculate the limiting angle of resolution for the eye, assuming a pupil diameter of 1.75 mm, a wavelength of 520 nm in air, and an index of refraction for the eye of 1.33. ____ rad (b) What is the maximum distance from the eye at which two points separated by 14.00 cm could be resolved? ____m

The resolution of the eye is ultimately limited by the pupil diameter. What is the smallest...

The resolution of the eye is ultimately limited by the pupil diameter. What is the smallest diameter spot the eye can produce on the retina if the pupil diameter is 3.80 mm? Assume light with a wavelength of ? = 550 nm. (Note: The distance from the pupil to the retina is 25.4 mm. In addition, the space between the pupil and the retina is filled with a fluid whose index of refraction is n = 1.336.) Hint: The size...

The pupil of an eagle’s eye has a diameter of 6.0 mm. Two field mice are...

The pupil of an eagle’s eye has a diameter of 6.0 mm. Two field mice are separated by 0.010 m. From a distance of 201 m, the eagle sees them as one unresolved object and dives toward them at a speed of 18 m/s. Assume that the eagle’s eye detects light that has a wavelength of 550 nm in vacuum. How much time passes until the eagle sees the mice as separate objects?

The pupil of an eagle’s eye has a diameter of 6.0 mm. Two field mice are...

The pupil of an eagle’s eye has a diameter of 6.0 mm. Two field mice are separated by 0.010 m. From a distance of 176 m, the eagle sees them as one unresolved object and dives toward them at a speed of 21 m/s. Assume that the eagle’s eye detects light that has a wavelength of 550 nm in vacuum. How much time passes until the eagle sees the mice as separate objects?

calculate the limiting angle of resolution for the eye, assuming a pupil diameter of 2 mm,...

calculate the limiting angle of resolution for the eye, assuming a pupil diameter of 2 mm, a wavelength of 500 nm in air, and an index of refraction for the eye equal to 1.33. calculate the minimum separation d between two points that the eye can distinguish, if the points are at a distance L = 25 cm from the observer. If the eye is dilated to a diameter of 5 mm, what is the minimum distance between two point...

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.

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

What is the minimum diameter mirror on a telescope that would allow you to see details as small as 4.95 km on the Moon some 384,000 km away? Assume an average wavelength of 565 nm for the light received.

The maximum resolution of the eye depends on the diameter of the opening of the pupil...

The maximum resolution of the eye depends on the diameter of the opening of the pupil (a diffraction effect) and the size of the light receptor cells (rods or cones) on the retina. The size of the retinal cells (about 5.0 μm in diameter) limits the size of an object at the near point (25 cm ) of the eye to a height of about 50 μm . (To get a reasonable estimate without having to go through complicated calculations,...

The two headlights of an approaching automobile are 1.4 m apart. At what (a) angular separation...

The two headlights of an approaching automobile are 1.4 m apart. At what (a) angular separation (in rad) and (b) maximum distance will the eye resolve them? Assume that the pupil diameter is 5.0 mm, and use a wavelength of 548 nm for the light. Also assume that diffraction effects alone limit the resolution so that Rayleigh's criterion can be applied, in meters. (ANSWER B) IN METERS NOT KM PLEASE)