AST 2010, Exam 2, Winter 2014Prof. Bonvicini

AST 2010: Descriptive Astronomy

EXAM 2

March 3, 2014

DO NOT open the exam until instructed to. Please read through the instructions below and fill out your details on the Scantron form.

Instructions

The exam consists of 50 multiple choice questions.
There will be 1 hour and 45 minutes to complete the exam.
Answers are to be marked on the Scantron answer sheet provided.
A list of useful equations and constants are provided. No student notes are allowed.
Please answer using a No. 2 pencil only (pen will not be read by the machine).
Read the instructions on the answer sheet for how to mark your answers correctly.
Scientific calculators are allowed, however, cell phones are not.
Use of cell phones will be considered cheating and will result in a 0.
Cheating of any sort is not tolerated and will result in a 0 and potential further action.

Please now fill in your Last Name, First Name and student ID number in the relevant boxes on the Scantron form. There is no need to fill in the Birth date, Sex or Grade/Education.

Physical Constants

Name / Symbol / Value
Speed of light / c / 3 × 108 m s-1
Gravitational constant / G / 6.67 × 10-11 m3 kg-1 s-2
Planck’s constant / h / 6.63 × 10-34 J s
Stefan-Boltzmann constant / σ / 6.67 ×10-8 W m-2 K-4
Wien’s law constant / T ×λmax / 2.90 × 106 K nm

Astronomical Constants

Name / Symbol / Value
Astronomical Unit / AU / 1.50 × 1011 m
Light-year / ly / 9.46 × 1015 m = 63,240 AU
Parsec / pc / 3.09 × 1016 m = 206,265 AU = 3.26 ly
Year (synodic) / yr / 365.2422 days = 3.1557 × 107s
Mass of Earth / M / 5.97 × 1024 kg
Mass of Sun / M / 1.99 × 1030 kg
Equatorial radius of Earth / R / 6378 km
Radius of Sun / R / 6.96 × 108 m
Luminosity of Sun / L / 3.83 × 1026 W
Hubble’s constant / H0 / 72 km s-1 Mpc-1

Some useful equations

Geometry

Circumference of a circle = 2πR

Area of a circle = πR2

Surface area of a sphere = 4πR2

Volume of sphere = πR3

Distance Relationships

Distance – velocity – time: d = v × t

Linear size - angular size: l = d ×α/57.3°

Distance from parallax: d (in parsecs) = 1/p(in arcsec)

Hubble’s law (for distance galaxies): d = v/H0

Gravity

Kepler’s 3rd Law: P2 = a3 when P is in years and a is in AU

Gravitational force between two masses:

Gravitational potential energy:

Newton’s modified form of Kepler’s 3rd law: (for d in AU and P in years)

Mass of object for orbital speed v and at distance R:

Escape velocity:

Light

Frequency (ν) – wavelength (λ) relation: λ ×ν = c

Energy of a photon:

Stefan-Boltzmann law: L = σT4× (surface area)

Wien’s Law:

Brightness (B) – Luminosity (L) relation:

Doppler effect: Radial velocity = VR =

Other Physical Relationships

Density = Mass / Volume

Newton’s 2nd Law: F = m × a

Kinetic Energy: KE = ½ m × v2

Conservation of angular momentum: Mass × Circular velocity × Radius = constant

Questions

The ability of a telescope to detect fine detail is called
Finesse
Persistence
Focus
Aperture
Resolution

The aperture of a telescope if determined by the area of its primary mirror or lens
True
False

The device used to detect light in digital cameras is called
Electron modulator
Photomultiplier tube
False color image
CCD (or charge-coupled device)
Aperture
The largest telescopes are the optical telescopes
True
False
When looking through a green ______, you see only the green light coming from each object.
Aperture
Coherent
Filter
Collecting area
None of the above
If the radius of a telescope’s mirror is doubled, the surface area increases by
2 times
3 times
4 times
8 times
None of the above
The diagram below displays an example of a
Refracting telescope
Newtonian telescope
Cassegrain telescope
Copernican telescope
None of the above

A refractor and a reflector have the same diameter aperture. A disadvantage of the reflector is that
reflectors allow in less light because it is blocked by the secondary mirror
reflectors have less magnification
reflectors do not direct all light to the same place
None of the above
How does the speed of light in glass compare to in space?
Faster in glass
Faster in space
Same in both
The bending of light around corners or edges is called:
Resolution
Refraction
Interference
Interferometer
Diffraction
The angular resolution of a telescope is determined by the ______of the telescope and the ______of the radiation being observed.
Length, wavelength
Length, color
Size of the aperture, brightness
Size of the aperture, wavelength
None of the above
The wavelength regions where the atmosphere does not absorb radiation are called
Adaptive optics
Atmospheric windows
Light pollution
Scintillation
Seeing
______is a measure of the steadiness of the atmosphere during astronomical observations.
Adaptive optics
Atmospheric windows
Light pollution
Scintillation
Seeing

The Sun’s visible surface is called the
Solar corona
Solar Wind
Sunspots
Chromosphere
Photosphere
The process of converting hydrogen into helium in the Sun is called what?
Radioactive decay
Neutrino production
Nuclear fusion
Nuclear fission
None of the above

On average, the time between solar activity maxima is
1 year
11 years
22 years
33 years
111 years
Colder visible regions of the Sun are called
Aurora
Coronal mass ejections
Flares
Sunspots
Prominences
On the Sun, the equator rotates faster than the area around the poles
True
False
A parallax angle of 1 arcsecond means that an object is at a distance of ______.
1 A.U.
1 light-year
1 parsec
1 kiloparsec
None of the above
The method of triangulation is good for measuring distances
Within the solar system
To nearby stars
Within our galaxy
To nearby galaxies
None of the above
The amount of light reaching us from a star is called luminosity
True
False
Star A is 10 times brighter than star B, but they have the same luminosity. Which star is closer?
Star A
Star B
Neither, they are at the same distance
Cold stars show absorption lines from heavy elements such as Calcium and Titanium oxide in their spectra.
True
False
Differences in spectral type mainly reflect differences in
Temperature
Composition
Neither
As two stars orbit each other in a binary system their spectral lines get shifted due to eclipses
True
False
The Stefan-Boltzmann Law gives the ______as a function of temperature
Total power radiated
Power radiated per unit area
Power radiated per unit wavelength
Flux received on Earth
The wavelength where the emission peaks
Suppose there are two stars A and B with the same luminosity. If star A is larger than star B, we can conclude
Star A is more massive
Star B is more massive
The temperature of star B is lower
The temperature of star A is lower
Not enough information to conclude anything
In an eclipsing binary star system, the maximum brightness occurs when
The hotter star passes in front of the cooler star
The colder star passes in front of the hotter star
Both stars are visible
The brightness of the system is constant
None of the above
Below is an H-R diagram. Stars in area #1 correspond to
Main sequence stars
Brown dwarfs
Red giants
Black holes
White dwarfs
In the above H-R diagram, stars in area #2 correspond to
Main sequence stars
Brown dwarfs
Red giants
Black holes
White dwarfs
In the above H-R diagram, stars in area #3 correspond to
Main sequence stars
Brown dwarfs
Red giants
Black holes
White dwarfs
The ______the mass of a star, the longer the time it spends in each stage of its evolution.
Higher
Lower
Doesn’t Matter
The Sun is classified as a high-mass star.
True
False
Which of the following do not have enough mass to fuse hydrogen into helium?
Main sequence stars
Red giants
Super giants
White dwarfs
Brown dwarfs
Which of the following statements about molecular clouds is false?
The contain hydrogen
They contain particles coated in ice
They contain helium
They contain iron
The entire cloud contracts as a whole leading to a gigantic protostar
Stars spend most of their life on the main sequence
True
False
When the core of a star contracts it ______.
Heats up
Cools down
Its temperature stays the same
When entering the giant phase, high mass stars don’t increase in luminosity as much as low mass stars
True
False
When a star expands, the surface
Turns red, heats up and power per square meter is increased
Turns red, heats up and power per square meter is reduced
Turns red, cools down and power per square meter is increased
Turns red, cools down and power per square meter is reduced
None of the above
Variable stars that have no repeated pattern on a light curve are referred to as
Irregular variables
Cepheid variables
RR Lyrae variables
Mira variables
Novae
The area on the H-R diagram where most variable stars are found is called the
Main sequence
Supergiant region
Giant region
White dwarf region
Instability strip
The period-luminosity relation states that longer periods of a Cepheid variable imply higher luminosities
True
False
From the figure below, where on the evolution time line does the star eject its outer layers?
1
2
3
4
5
At the center of a low-mass planetary nebula is found a
Planet
Black Hole
Neutron Star
White Dwarf
Variable star
What best describes the evolution of a sun-like star from youngest to oldest?
Black dwarf, white dwarf, red giant, main sequence, protostar
Red giant, main sequence, white dwarf, black dwarf, protostar
Protostar, main sequence, red giant, white dwarf, black dwarf
Protostar, main sequence, red giant, black dwarf, white dwarf
Protostar, red giant, main sequence, white dwarf, black dwarf
Material from a companion star that accretes onto a white dwarf can trigger a chain reaction of fusion called
Thermonuclear runaway
Coronal ejection
Electron degeneracy
Mass transfer
Recurrent nova
When the mass of a white dwarf becomes less than the Chandrasekhar limit, it will collapse.
True
False
In a high mass star ______cannot be used as fuel
Oxygen
Carbon
Nitrogen
Silicon
Iron
In the late stages of a high-mass red giant, elements are in layers with ______in the core and ______in the outermost layer.
Hydrogen, Helium
Helium, Hydrogen
Helium, Silicon
Iron, Hydrogen
Hydrogen, Iron
The sun will become a supernova
True
False