Question 1

Which of the following is true about the frequency and wavelength of electromagnetic waves?&#10;A)The product of frequency and wavelength is the same for all such waves&#10;B)As frequency increases,wavelength increases&#10;C)Frequency is constant for all wavelengths&#10;D)Frequency and wavelength are independent of each other

Accepted Answer

The product of frequency and wavelength for all electromagnetic waves is constant (c), where c is the speed of light. This means that as the frequency increases, the wavelength decreases and vice versa. Therefore, option B and C are false. Option D is also incorrect as frequency and wavelength are inversely proportional to each other.

Question 2

How many 4 meter telescopes would be required to match the light-gathering power of a 15 meter telescope?&#10;A)2&#10;B)6&#10;C)14&#10;D)20

Accepted Answer

The light-gathering power of a telescope is proportional to the area of its aperture, which is π*(diameter/2)^2. A 15-meter telescope has an area of 176.71 square meters, while a 4-meter telescope has an area of 12.57 square meters. Dividing the larger area by the smaller gives approximately 14.

Question 3

Which of the following kinds of photons are least energetic?&#10;A)Infrared&#10;B)Visible&#10;C)Ultraviolet&#10;D)X-ray

Accepted Answer

Infrared photons are the least energetic photons among the given options. They have a longer wavelength and lower frequency, thus lower energy.

Question 4

The product of the wavelength and frequency of a wave is equal to&#10;A)The speed of the wave&#10;B)The energy of the wave&#10;C)The distance between crests of the wave&#10;D)The temperature of the wave

Accepted Answer

The product of wavelength and frequency of a wave is equal to its speed. This is known as the wave equation, which can be written as c = λν, where c is the speed of light, λ is the wavelength, and ν is the frequency. This relationship holds true for all forms of electromagnetic radiation, including radio waves, microwaves, light, X-rays, and gamma rays.

Question 5

A TV satellite broadcasts at a frequency of 5000 MHz,(1 MHz = 1 million Hertz).What is the wavelength of this radiation?&#10;A)1000 cm&#10;B)5 million centimeters&#10;C)6 cm&#10;D)0.3 cm

Accepted Answer

The wavelength ($\lambda$) of electromagnetic radiation can be calculated using the formula $\lambda = \frac{c}{f}$, where $c$ is the speed of light ($3 \times 10^8$ m/s) and $f$ is the frequency. For a frequency of 5000 MHz (or $5 \times 10^9$ Hz), the wavelength is $\frac{3 \times 10^8}{5 \times 10^9} = 0.06$ meters, which is 6 cm.

Question 6

Compared with infrared waves,radio waves&#10;A)Have higher energy&#10;B)Have lower frequency&#10;C)Take much longer to reach us from celestial objects&#10;D)Have shorter wavelengths

Accepted Answer

Radio waves have lower frequency than infrared waves.

Question 7

A particle of light is a&#10;A)Graviton&#10;B)Proton&#10;C)Spectrum&#10;D)Photon&#10;E)Angstrom

Accepted Answer

A particle of light is a photon.

Question 8

Which of the following forms of electromagnetic radiation has the longest wavelength?&#10;A)Visible&#10;B)X-ray&#10;C)Infrared&#10;D)Ultraviolet

Accepted Answer

Infrared has the longest wavelength of the given options. The order from longest to shortest wavelength is radio, microwave, infrared, visible, ultraviolet, X-ray, and gamma rays.

Question 9

Suppose you want to determine if there is any methane gas on a newly discovered planet.You need to equip your telescope with a&#10;A)CCD&#10;B)Photographic plate holder&#10;C)Spectrometer&#10;D)Space probe,since you can't determine anything about gases without travelling there.

Accepted Answer

Spectrometer is the best choice as it can measure the spectrum of light coming from the planet and identify the specific wavelengths that relate to methane gas. This method allows us to detect gases from a distance without the need for a space probe or physical presence on the planet. A CCD or photographic plate holder could capture images of the planet, but they would not provide information about the planet's atmospheric gases.

Question 10

The same telescope is used to obtain an image using light of the following wavelengths.Which of the images will have the poorest angular resolution?&#10;A)Blue&#10;B)Yellow&#10;C)Red&#10;D)Infrared

Accepted Answer

Angular resolution for a telescope is inversely proportional to the wavelength of light being observed. Infrared light has a longer wavelength than visible light (blue, yellow, and red), so an image taken in the infrared spectrum will have the poorest angular resolution.

Question 11

When used at a wavelength of 1 micron,a telescope can resolve angles as small as 0.1 seconds of arc.How small an angle could the telescope resolve when used at a wavelength of 5 microns?&#10;A)0.02 seconds of arc&#10;B)0.004 seconds of arc&#10;C)0.5 seconds of arc&#10;D)0.25 seconds of arc

Accepted Answer

The answer of When used at a wavelength of 1...

Question 12

How does the speed of light in glass compare to the speed of light in a vacuum?&#10;A)It is larger in glass&#10;B)It is larger in a vacuum&#10;C)Trick question,light can't travel in glass&#10;D)They are the same

Accepted Answer

The answer of How does the speed of light in...

Question 13

The wavelength of a wave is 2 meters.The frequency of the wave is 2 Hz.What is the speed of the wave?&#10;A)16 m/s&#10;B)4 m/s&#10;C)64 m/s&#10;D)0.25 m/s

Accepted Answer

The answer of The wavelength of a wave is 2...

Question 14

Which of the following are NOT electromagnetic waves?&#10;A)Radio waves&#10;B)Optical light&#10;C)X-rays&#10;D)Gravitational waves

Accepted Answer

The answer of Which of the following are NOT electromagnetic...

Question 15

The focal ratio of a lens or mirror is the ratio of its&#10;A)Focal length to diameter&#10;B)Diameter to thickness&#10;C)Magnification to diameter&#10;D)Focal length to thickness

Accepted Answer

The answer of The focal ratio of a lens or...

Question 16

How does the light-gathering power of a 40 cm telescope compare to that of a 20 cm telescope?&#10;A)They are the same&#10;B)2 times as great&#10;C)4 times as great&#10;D)8 times as great

Accepted Answer

The answer of How does the light-gathering power of a...

Question 17

Telescope A has a mirror that is 10 times larger than the mirror of telescope B.Telescope A can resolve an angle as small as 0.1 seconds of arc.
What is the smallest angle that can be resolved by telescope B?

A)10 seconds of arc
B)1 second of arc
C)0.1 second of arc
D)0.01 second of arc

Accepted Answer

The answer of Telescope A has a mirror that is...

Question 18

Radio astronomers obtain great angular resolution by&#10;A)Observing at the longest wavelength possible&#10;B)Using arrays of radio telescopes&#10;C)Observing objects when they are near the horizon&#10;D)Observing an object with the same telescope for many years

Accepted Answer

The answer of Radio astronomers obtain great angular resolution by&#10;A)Observing...

Question 19

A telescope that uses a lens to bring radiation to a focus is called a&#10;A)Radio telescope&#10;B)Reflector&#10;C)Refractor&#10;D)Photometer

Accepted Answer

The answer of A telescope that uses a lens to...

Question 20

Which of the following forms of electromagnetic waves (or photons)has the greatest energy?&#10;A)Visible&#10;B)X-ray&#10;C)Infrared&#10;D)Ultraviolet

Accepted Answer

The answer of Which of the following forms of electromagnetic...

Question 21

In the laboratory,an atom emits a spectral line at a wavelength of 400 nanometers.In the spectrum of a star,the same spectral line is found to have a wavelength of 410 nanometers.What can be said about the star?

A)It is hotter than the Sun
B)It is moving toward the Earth
C)It is moving away from the Earth
D)It contains elements that are not found on Earth

Accepted Answer

The answer of In the laboratory,an atom emits a spectral...

Question 22

Why do X-ray telescopes have to be placed in space satellites?&#10;A)They are too sensitive to terrestrial radiation&#10;B)They are too dangerous for astronomers to operate on the ground&#10;C)The Earth's atmosphere absorbs cosmic X-rays&#10;D)There is too much scattered sunlight in the Earth's atmosphere&#10;E)The mirrors for X-ray telescopes are too large to operate on the ground

Accepted Answer

The answer of Why do X-ray telescopes have to be...

Question 23

The Doppler Effect is _____________________.&#10;A)the speed of light divided by the frequency of the wave&#10;B)the change in the wavelength divided by the change in the frequency&#10;C)the change in frequency and wavelength of a wave due to motion between the source and observer&#10;D)the decrease in wave intensity with increasing distance from the source

Accepted Answer

The answer of The Doppler Effect is _____________________.&#10;A)the speed of...

Question 24

Adaptive optics are used to produce what effect?&#10;A)Optical compensation for atmospheric turbulence&#10;B)Automatic changing of the magnification&#10;C)Produce increases in the appeture diameter&#10;D)Combine telescopic arrays to increase resolution of the image

Accepted Answer

The answer of Adaptive optics are used to produce what...

Question 25

In the laboratory,a spectral line of an element has a wavelength of 5000 Angstroms.What would be the measured wavelength of that line in the spectrum of a planet that is approaching at a velocity of 30 km/s? (The speed of light is 300,000 km/s. )

A)4999.5 Angstroms
B)4995 Angstroms
C)5000.5 Angstroms
D)5005 Angstroms

Accepted Answer

The answer of In the laboratory,a spectral line of an...

Question 26

A star is moving away from an observer at 1% of the speed of light.At what wavelength would the observer find an emission line that would occur at a wavelength of 6000 Angstroms if the star were at rest?

A)6060 Angstroms
B)6010 Angstroms
C)6000 Angstroms
D)5940 Angstroms

Accepted Answer

The answer of A star is moving away from an...

Question 27

The magnification in a refracting telescope is calculated in what way?&#10;A)Compute the ratio of the focal length of the eyepiece lens to the focal length of the objective lens&#10;B)Compute the ratio of the focal length of the objective lens to the focal length of the eyepiece lens&#10;C)Multiply 1.22 by the diameter of the appeture lens&#10;D)Compute the square of the length of the telescope

Accepted Answer

The answer of The magnification in a refracting telescope is...

Question 28

Which of the following is not likely to be an attribute of a good observing site?&#10;A)Dark sky&#10;B)Atmospheric stability&#10;C)Low elevation&#10;D)Low humidity

Accepted Answer

The answer of Which of the following is not likely...

Deck 6: Light and Telescopes