Earth-Sky Relationships and the Celestial Sphere
... would be able to divide the sky into a Northern and Southern Hemisphere. We call this dividing line on the sky the Celestial Equator, and it is represented on your celestial sphere as the “seam” between the bottom and top halves of the sphere. We know that the poles of the Earth are the points on t ...
... would be able to divide the sky into a Northern and Southern Hemisphere. We call this dividing line on the sky the Celestial Equator, and it is represented on your celestial sphere as the “seam” between the bottom and top halves of the sphere. We know that the poles of the Earth are the points on t ...
2014 State Test
... D6. (2 pts) The measured parallax of this star is 1.26 milliarcseconds. What is the distance to this star in parsecs? Give your answer to three significant figures. D7. (2 pts) What is the distance modulus associated with the distance you calculated in D6? If you didn’t get an answer to D6 or don’t ...
... D6. (2 pts) The measured parallax of this star is 1.26 milliarcseconds. What is the distance to this star in parsecs? Give your answer to three significant figures. D7. (2 pts) What is the distance modulus associated with the distance you calculated in D6? If you didn’t get an answer to D6 or don’t ...
HW #02 Solutions
... 1. Two identical stars have different apparent brightnesses (fluxes). One star is 10 parsecs away from us and the other is 30 parsecs away from you. Which star is brighter and by how many times? The brightness of a star depends on two factors; its luminosity and its distance. This is summarized in L ...
... 1. Two identical stars have different apparent brightnesses (fluxes). One star is 10 parsecs away from us and the other is 30 parsecs away from you. Which star is brighter and by how many times? The brightness of a star depends on two factors; its luminosity and its distance. This is summarized in L ...
Document
... • The scenario that leads to nova explosions can produce an even wilder phenomenon. • In the early 1900s `novae’ were sometimes observed in other galaxies and were used to help set the distances to galaxies. • But, when it became clear that even the nearest galaxies were much further away than anyon ...
... • The scenario that leads to nova explosions can produce an even wilder phenomenon. • In the early 1900s `novae’ were sometimes observed in other galaxies and were used to help set the distances to galaxies. • But, when it became clear that even the nearest galaxies were much further away than anyon ...
White Dwarfs & Other Ends March 21 − Stars with < 2 M
... • Pressure is not greater at hotter temperature • Baseballs move because they are close together • Quantum mechanics: uncertainty relation • Speed × confinement = Planck’s constant • Pressure is greater if gas is confined to smaller region • In a smaller star, baseballs move faster • Baseballs hit w ...
... • Pressure is not greater at hotter temperature • Baseballs move because they are close together • Quantum mechanics: uncertainty relation • Speed × confinement = Planck’s constant • Pressure is greater if gas is confined to smaller region • In a smaller star, baseballs move faster • Baseballs hit w ...
2. - Quia
... 1. Would it be practical to travel to Sirius by any of the modes of travel listed on your chart? Why or why not? 2. The Voyager spacecraft were equipped with CDs that contain pictures and sounds depicting our world. One of the Voyager spacecraft is actually headed towards Sirius. If there is an inte ...
... 1. Would it be practical to travel to Sirius by any of the modes of travel listed on your chart? Why or why not? 2. The Voyager spacecraft were equipped with CDs that contain pictures and sounds depicting our world. One of the Voyager spacecraft is actually headed towards Sirius. If there is an inte ...
HR Diagram (Temperature Versus Absolute Magnitude)
... single ray of light can travel in space in one year (9.5 trillion kilometers) • A single ray of light travels at about 300,000 kilometers per second in space ...
... single ray of light can travel in space in one year (9.5 trillion kilometers) • A single ray of light travels at about 300,000 kilometers per second in space ...
STELLAR FORMATION AND EVOLUTION
... To be able to understand the life cycle of a star, you need a good understanding of the Hertzsprung-Russell Diagram. In 1905, two astronomers, Einar Hertzsprung and Henry Norris Russell, independently plotted the temperature of a star versus the brightness of the star. They did this with a large num ...
... To be able to understand the life cycle of a star, you need a good understanding of the Hertzsprung-Russell Diagram. In 1905, two astronomers, Einar Hertzsprung and Henry Norris Russell, independently plotted the temperature of a star versus the brightness of the star. They did this with a large num ...
GRB Progenitors and their environments
... • Merger of 2 compact objects: NS/NS (do they form BHs?), BH/NS (many do not produce disk), BH/WD, NS/WD (disk too wide to produce short bursts?). • The distribution of the debris from the merger will play a role in timing. But the compact merger likely travels beyond the star formation site (stella ...
... • Merger of 2 compact objects: NS/NS (do they form BHs?), BH/NS (many do not produce disk), BH/WD, NS/WD (disk too wide to produce short bursts?). • The distribution of the debris from the merger will play a role in timing. But the compact merger likely travels beyond the star formation site (stella ...
The Lifecycle of the Stars
... http://www.nasa.gov/multimedia/imagegallery/image_feature_784.html ...
... http://www.nasa.gov/multimedia/imagegallery/image_feature_784.html ...
Life Histories Of Some Stars
... the universe is about 15 billion years, what does this say about the kind of stars most likely to have remained from the beginnings of the universe? What’s Going On? In this activity, you can see that the very massive stars live much shorted “lives” compared to the smaller, less massive stars. Why i ...
... the universe is about 15 billion years, what does this say about the kind of stars most likely to have remained from the beginnings of the universe? What’s Going On? In this activity, you can see that the very massive stars live much shorted “lives” compared to the smaller, less massive stars. Why i ...
Abs-Apar Mag
... – Brightest stars = 1st class, then 2nd, 3rd… – 6th magnitude are faintest stars seen at night – Result: lower number = brighter “There is no other rule for classing the stars but the estimation of the observer; and hence it is that some astronomers reckon those stars of the first magnitude which ot ...
... – Brightest stars = 1st class, then 2nd, 3rd… – 6th magnitude are faintest stars seen at night – Result: lower number = brighter “There is no other rule for classing the stars but the estimation of the observer; and hence it is that some astronomers reckon those stars of the first magnitude which ot ...
Assignment 4A
... ____ 14. After a nice dinner around the campfire on a camping trip, you and a friend decide to get away from the fire to observe the stars. As you get farther and farther away, you see the brightness of the fire: a. increase with distance b. remain the same c. decrease as the distance squared d. ch ...
... ____ 14. After a nice dinner around the campfire on a camping trip, you and a friend decide to get away from the fire to observe the stars. As you get farther and farther away, you see the brightness of the fire: a. increase with distance b. remain the same c. decrease as the distance squared d. ch ...