Astronomy college course/Star (Wikipedia)/questions

1. Why is a star made of plasma?

___ a) it is so hot that electrons are stripped away from the protons

___ b) plasma is always present when there are strong magnetic fields

___ c) the interstellar gas was mostly plasma

___ d) plasma is generic word for "important"

___ e) the intense gravity liquifies the substance, just as red blood cells liquify plasma in the body

2. What is the difference between a constellation and an asterism?

___ a) asterisms are smaller than constellations

___ b) none of these is correct

___ c) constellations represent regions of the sky, like state boundaries on a map of the USA

___ d) asterisms are larger than constellations

___ e) constellations consist of never more than ten stars.

3. Stellar parallax is

___ a) Two of these is correct

___ b) Triangulation to deduce the distance to nearby stars

___ c) Using changes in the angular position of a star to deduce the star’s distance

___ d) Using spectral lines to deduce the distance to nearby stars

___ e) None of these is correct.

4. Giant molecular clouds with sufficient conditions to form a star cluster would have formed them long ago. Any stellar births in the past couple of billions years probably resulted from _____ between clouds.

___ a) photon exchange

___ b) collisions

___ c) None of these is correct.

___ d) ion exchange

___ e) Two of these are correct

5. A starburst galaxy.

___ a) Two of these are correct

___ b) All of these are correct

___ c) usually is a result of collisions between galaxies

___ d) is a region of active stellar birth

___ e) has only dead or dying stars

6. Which of the following expresses Jean's criterion for the collapse of a giant molecular cloud of mass, M, radius, R, and temperature T, and pressure P? (Here ? is some constant)

___ a) P>?MR

___ b) R>?MT

___ c) M>?RT

___ d) T>?RM

___ e) P>?MT

7. Which of the following changes in the properties of a giant molecular cloud might cause it to collapse?

___ a) Decrease mass at fixed temperature and size

___ b) Two of these are correct

___ c) Increase mass at fixed temperature and size

___ d) Increase temperature at fixed mass and size

___ e) Increase size at fixed pressure and mass

8. What happens if you increase the size of a giant molecular cloud while keeping temperature and mass fixed?

___ a) It is more likely to collapse because this will increase the temperature

___ b) It is less likely to collapse because temperature can never be kept fixed

___ c) It is more likely to collapse because larger things have more gravity

___ d) It is equally likely to collapse because size is not part of the Jean's criterion.

___ e) It is less likely to collapse spreading it out weakens the force of gravity

9. What is a Bok globule in the formation of stellar systems?

___ a) A black hole that enters a cloud and triggers the collapse

___ b) A small planet that formed before any stars have formed

___ c) A supernovae precurser that attracts more gas atoms

___ d) A small portion of a giant cloud that collapses

___ e) A cluster of giant molecular clouds that coalesce to form a solar system

10. Pre–main sequence stars are often surrounded by a protoplanetary disk and powered mainly by

___ a) the release of gravitational energy

___ b) chemical reactions

___ c) the fission of Carbon from Helium

___ d) collisions between protoplanets

___ e) the fusion of Helium to Carbon

11. Stars that begin with more than 50 solar masses will typically lose _______ while on the main sequence.

___ a) 10% of their magnetic field

___ b) 10% their mass

___ c) 1% their mass

___ d) 50% their mass

___ e) all of their magnetic field

12. The Hayashi and Henyey tracks refer to how T Tauri of different masses will move

___ a) through a cluster as they are born

___ b) through an HR diagram as they are born

___ c) Two of these are true

___ d) through a cluster as they die

___ e) through an HR diagram as they die

13. How do low-mass stars change as they are born?

 

___ a) Decreasing luminosity with no change in temperature

___ b) Increasing luminosity with no change in temperature

___ c) Increasing temperature with no change in luminosity

___ d) Decreasing temperature and increasing luminosity

___ e) Decreasing temperature with no change in luminosity

14. When a star with more than 10 solar masses ceases fuse hydrogen to helium, it

___ a) it fuses helium to carbon to iron (and other elements), then continues to release more energy by fusing the iron to heavier elements such as uranium.

___ b) it fuses helium to carbon and other elements up to iron and then ceases to produce more energy

___ c) ceases to convert nuclear energy.

___ d) it fuses helium to carbon and then ceases to produce more energy

___ e) it fuses elements up to uranium, and continues to produce energy by the fission of uranium.

15. Many supernovae begin as a shock wave in the core that was caused by

___ a) electrons being driven into protons to form neutrons

___ b) iron fusing into heavier elements such as uranium

___ c) the conversion of carbon into diamonds,

___ d) all of these processes contribute to the shock wave

___ e) carbon and other elements fusing into iron

16. A dying star with more than 1.4 solar masses becomes a ______, and those with more than 5 solar masses becomes a _____

___ a) blue giant....red giant

___ b) white dwarf....black hole

___ c) neutron star....black hole

___ d) white dwarf....neutron star

___ e) white dwarf...red dwarf

17. According to Wikipedia, a star with over 20 solar masses converts its Hyrogen to Helium in about 8 billion years, but the conversion of Oxygen to heavier elements take about _____

___ a) 1 thousand years

___ b) 10 billion years

___ c) 1 year

___ d) 1 million years

___ e) 1 billion years

1. Why is a star made of plasma?

+ a) it is so hot that electrons are stripped away from the protons

- b) plasma is always present when there are strong magnetic fields

- c) the interstellar gas was mostly plasma

- d) plasma is generic word for "important"

- e) the intense gravity liquifies the substance, just as red blood cells liquify plasma in the body

2. What is the difference between a constellation and an asterism?

- a) asterisms are smaller than constellations

- b) none of these is correct

+ c) constellations represent regions of the sky, like state boundaries on a map of the USA

- d) asterisms are larger than constellations

- e) constellations consist of never more than ten stars.

3. Stellar parallax is

+ a) Two of these is correct

- b) Triangulation to deduce the distance to nearby stars

- c) Using changes in the angular position of a star to deduce the star’s distance

- d) Using spectral lines to deduce the distance to nearby stars

- e) None of these is correct.

4. Giant molecular clouds with sufficient conditions to form a star cluster would have formed them long ago. Any stellar births in the past couple of billions years probably resulted from _____ between clouds.

- a) photon exchange

+ b) collisions

- c) None of these is correct.

- d) ion exchange

- e) Two of these are correct

5. A starburst galaxy.

+ a) Two of these are correct

- b) All of these are correct

- c) usually is a result of collisions between galaxies

- d) is a region of active stellar birth

- e) has only dead or dying stars

6. Which of the following expresses Jean's criterion for the collapse of a giant molecular cloud of mass, M, radius, R, and temperature T, and pressure P? (Here ? is some constant)

- a) P>?MR

- b) R>?MT

+ c) M>?RT

- d) T>?RM

- e) P>?MT

7. Which of the following changes in the properties of a giant molecular cloud might cause it to collapse?

- a) Decrease mass at fixed temperature and size

- b) Two of these are correct

+ c) Increase mass at fixed temperature and size

- d) Increase temperature at fixed mass and size

- e) Increase size at fixed pressure and mass

8. What happens if you increase the size of a giant molecular cloud while keeping temperature and mass fixed?

- a) It is more likely to collapse because this will increase the temperature

- b) It is less likely to collapse because temperature can never be kept fixed

- c) It is more likely to collapse because larger things have more gravity

- d) It is equally likely to collapse because size is not part of the Jean's criterion.

+ e) It is less likely to collapse spreading it out weakens the force of gravity

9. What is a Bok globule in the formation of stellar systems?

- a) A black hole that enters a cloud and triggers the collapse

- b) A small planet that formed before any stars have formed

- c) A supernovae precurser that attracts more gas atoms

+ d) A small portion of a giant cloud that collapses

- e) A cluster of giant molecular clouds that coalesce to form a solar system

10. Pre–main sequence stars are often surrounded by a protoplanetary disk and powered mainly by

+ a) the release of gravitational energy

- b) chemical reactions

- c) the fission of Carbon from Helium

- d) collisions between protoplanets

- e) the fusion of Helium to Carbon

11. Stars that begin with more than 50 solar masses will typically lose _______ while on the main sequence.

- a) 10% of their magnetic field

- b) 10% their mass

- c) 1% their mass

+ d) 50% their mass

- e) all of their magnetic field

12. The Hayashi and Henyey tracks refer to how T Tauri of different masses will move

- a) through a cluster as they are born

+ b) through an HR diagram as they are born

- c) Two of these are true

- d) through a cluster as they die

- e) through an HR diagram as they die

13. How do low-mass stars change as they are born?

 

+ a) Decreasing luminosity with no change in temperature

- b) Increasing luminosity with no change in temperature

- c) Increasing temperature with no change in luminosity

- d) Decreasing temperature and increasing luminosity

- e) Decreasing temperature with no change in luminosity

14. When a star with more than 10 solar masses ceases fuse hydrogen to helium, it

- a) it fuses helium to carbon to iron (and other elements), then continues to release more energy by fusing the iron to heavier elements such as uranium.

+ b) it fuses helium to carbon and other elements up to iron and then ceases to produce more energy

- c) ceases to convert nuclear energy.

- d) it fuses helium to carbon and then ceases to produce more energy

- e) it fuses elements up to uranium, and continues to produce energy by the fission of uranium.

15. Many supernovae begin as a shock wave in the core that was caused by

+ a) electrons being driven into protons to form neutrons

- b) iron fusing into heavier elements such as uranium

- c) the conversion of carbon into diamonds,

- d) all of these processes contribute to the shock wave

- e) carbon and other elements fusing into iron

16. A dying star with more than 1.4 solar masses becomes a ______, and those with more than 5 solar masses becomes a _____

- a) blue giant....red giant

- b) white dwarf....black hole

+ c) neutron star....black hole

- d) white dwarf....neutron star

- e) white dwarf...red dwarf

17. According to Wikipedia, a star with over 20 solar masses converts its Hyrogen to Helium in about 8 billion years, but the conversion of Oxygen to heavier elements take about _____

- a) 1 thousand years

- b) 10 billion years

+ c) 1 year

- d) 1 million years

- e) 1 billion years