Deck 4: Light and Telescopes

A) It is the same as the speed of light in a vacuum.
B) It is always less than the speed of light in a vacuum.
C) It is always greater than the speed of light in a vacuum.
D) Sometimes it is greater than the speed of light in a vacuum,and sometimes it is less,depending on the medium.

A) Galileo
B) Rømer
C) Kepler
D) Newton
E) Einstein

A) time
B) distance
C) speed
D) energy

A) 300,000 m/s
B) 300,000 mph
C) 300,000 km/s
D) 300,000,000 mph
E) infinite

A) The longer the focal length,the better the resolution.
B) The longer the focal length,the worse the resolution.
C) There is no relation between resolution and focal length.

A) lack of chromatic aberration.
B) shorter length for the same aperture size.
C) lighter weight for larger apertures.
D) All of the above are valid reasons.

A) the wavelength of the light
B) the index of refraction of the medium through which it is traveling
C) the index of refraction of the medium into which it is moving
D) all of the above

A) 2.6 times larger
B) 6.8 times larger
C) 2.6 times smaller
D) 6.8 times smaller

A) A blue photon of the visible spectrum,whose wavelength is 450 nm
B) An infrared photon,whose wavelength is 10^-5 m
C) A red photon in the visible spectrum,whose wavelength is 700 nm
D) A microwave photon,whose wavelength is 10^-2 m

A) increases; decreases
B) increases; increases
C) decreases; decreases
D) decreases; increases

A) X-rays
B) Infrared
C) Microwave
D) Radio

A) they have a higher quantum efficiency
B) they have a linear response to light
C) they yield output in digital format
D) they operate at visible and near-infrared wavelengths
E) All of the above are true

A) Polaroid cameras
B) Photographic glass plates
C) High-speed film
D) Video cameras

A) A sodium atom has fewer neutrons in its nucleus than an iron atom.
B) An iron atom has more protons in its nucleus than a sodium atom.
C) A sodium atom is bigger than an iron atom.
D) All of the above are true.

A) photons with longer wavelengths have lower frequencies
B) radio wave photons have shorter wavelengths than gamma ray photons
C) X-rays can be transmitted through the atmosphere around the world
D) All of the above are true

A) Radio waves,infrared,visible,ultraviolet,X-rays
B) Gamma rays,ultraviolet,visible,infrared,radio waves
C) Gamma rays,X-rays,infrared,visible,ultraviolet
D) X-rays,infrared,visible,ultraviolet,radio waves
E) Radio waves,ultraviolet,visible,infrared,gamma rays

A) it is possible to observe a larger field of view with photographic plates
B) the quantum efficiency is higher for photographic plates
C) the image resolution is much better for photographic plates
D) it is possible to detect fainter objects with the use of photographic plates

A) 100-m telescope
B) 50-m telescope
C) 30-m telescope
D) 10-m telescope

A) retina
B) pupil
C) rods
D) cones

A) 5.0 × 10⁶ Hz
B) 5.0 × 10¹⁴ Hz
C) 5.0 × 10¹¹ Hz
D) 2.0 × 10¹⁵ Hz

A) reflection
B) refraction
C) dispersion
D) interference

A) 8 times larger
B) 4 times larger
C) 16 times smaller
D) 2 times smaller

A) To increase the light gathering power
B) To make the telescope shorter
C) To increase the focal length
D) To combat chromatic aberration

A) Red light has a longer wavelength and higher frequency than those of blue light.
B) Red light has a longer wavelength and lower frequency than those of blue light.
C) Red light has a shorter wavelength and higher frequency than those of blue light.
D) Red light has a shorter wavelength and lower frequency than those of blue light.

A) reflection
B) refraction
C) diffraction
D) interference

A) diffraction
B) refraction
C) the focal length
D) atmospheric seeing

A) the Earth's atmosphere easily absorbs it
B) no space-based telescopes operate at ultraviolet wavelengths
C) only the lowest mass stars emit ultraviolet light
D) very few objects emit at ultraviolet wavelengths

A) Smog
B) Carbon dioxide
C) Water vapor
D) Light pollution

A) The frequency would be four times larger.
B) The frequency would be two times larger.
C) The frequency would be two times smaller.
D) The frequency would be four times smaller.
E) There is no relationship between wavelength and frequency.

A) 10 arcsec
B) 0.10 arcsec
C) 10 arcmin
D) 1.0 arcmin

A) the Hubble Space Telescope (0.1 arcsec)
B) a human eye (1 arcmin)
C) the Chandra X-ray Telescope (0.5 arcsec)
D) a 1-m optical telescope (1 arcsec)

A) c = $\lambda$ f
B) c = $\lambda$ /f
C) c = f/ $\lambda$
D) c = 1/ $\lambda$ f

A) 0.12°
B) 0.12 arcmin
C) 0.12 arcsec
D) 12 arcsec

A) 0.01 arcsec
B) 0.006 arcsec
C) 0.05 arcsec
D) 0.2 arcsec

A) X-rays
B) Infrared
C) Microwave
D) Radio

A) they operate above the Earth's atmosphere
B) they capture infrared light,which has a longer wavelength than visible light
C) deformable mirrors are used to correct the blurring due to the Earth's atmosphere
D) composite lenses correct for chromatic aberration

A) diameter of the telescopes
B) separation between the telescopes
C) number of telescopes
D) focal length of the telescopes

A) 2 times larger
B) 4 times larger
C) 2 times smaller
D) 4 times smaller

A) 1.5 days
B) 15 hours
C) 1.5 weeks
D) 15 minutes