Geography
... find the Big Dipper. Draw a straight line between the two stars of the Big Dipper as shown, toward the Little Dipper. The North Star is located at the end of the handle of the Little Dipper. The Polestar is the brightest of the Little Dipper stars. ...
... find the Big Dipper. Draw a straight line between the two stars of the Big Dipper as shown, toward the Little Dipper. The North Star is located at the end of the handle of the Little Dipper. The Polestar is the brightest of the Little Dipper stars. ...
chapter 7 review questions
... 34. The spectra of two stars indicate that they are of the same spectral type. However, Star A has a very broad line profile for the H line while Star B has a very narrow line profile for H . What might this tell us about the two stars? a. ...
... 34. The spectra of two stars indicate that they are of the same spectral type. However, Star A has a very broad line profile for the H line while Star B has a very narrow line profile for H . What might this tell us about the two stars? a. ...
PowerPoint - Chandra X
... Chandra Science Highlights IC 443: A Supernova Remnant with a Newly Discovered Neutron Star 5,000 light years from Earth This Chandra image shows a point-like source of X-rays inside a cloud of high energy particles which is embedded in the supernova remnant IC443. Using this image, along with radio ...
... Chandra Science Highlights IC 443: A Supernova Remnant with a Newly Discovered Neutron Star 5,000 light years from Earth This Chandra image shows a point-like source of X-rays inside a cloud of high energy particles which is embedded in the supernova remnant IC443. Using this image, along with radio ...
The Celestial Sphere
... It is tilted 23.5° from it. The Sun’s path is called the Ecliptic It crosses the Celestial Equator twice: On about September 22nd,the Autumnal or Fall ...
... It is tilted 23.5° from it. The Sun’s path is called the Ecliptic It crosses the Celestial Equator twice: On about September 22nd,the Autumnal or Fall ...
Part B
... • Hypernovae - collapse of stars of greater than 30 solar masses which are spinning rapidly. • The black hole forms before star outer layers contract very much. ...
... • Hypernovae - collapse of stars of greater than 30 solar masses which are spinning rapidly. • The black hole forms before star outer layers contract very much. ...
Document
... neutron star. A large entropy jump characterizes the base of the oxygen shell and may provide a natural location for the mass cut. Naively the baryonic mass of the remnant may be between these two – but this is very crude and ignores fall back. Above some remnant mass (1,7? 2.2?) a black hole will r ...
... neutron star. A large entropy jump characterizes the base of the oxygen shell and may provide a natural location for the mass cut. Naively the baryonic mass of the remnant may be between these two – but this is very crude and ignores fall back. Above some remnant mass (1,7? 2.2?) a black hole will r ...
Friday, April 11
... the Sun produces each second? • The Sun’s energy spreads out in all directions • We can measure how much energy we receive on Earth • At a distance of 1 A.U., each square meter receives 1400 Watts of power (the solar constant) • Multiply by surface of sphere of radius 149.6 bill. meter (=1 A.U.) to ...
... the Sun produces each second? • The Sun’s energy spreads out in all directions • We can measure how much energy we receive on Earth • At a distance of 1 A.U., each square meter receives 1400 Watts of power (the solar constant) • Multiply by surface of sphere of radius 149.6 bill. meter (=1 A.U.) to ...
Branches of Earth Science
... o Composition o Brightness Color and Temperature o A stars ______________ reveals its ______________ temperature The surface temperature is ______________ than the core temperature due to nuclear fusion. o Stars are very Patriotic when it comes to color ...
... o Composition o Brightness Color and Temperature o A stars ______________ reveals its ______________ temperature The surface temperature is ______________ than the core temperature due to nuclear fusion. o Stars are very Patriotic when it comes to color ...
The Milky Way - Midlandstech
... A. Stellar Models B. Why is there a Main Sequence? C. The Upper End of the Main Sequence D. The Lower End of the Main Sequence E. The Life of a Main-Sequence Star F. The Life Expectancies of Stars II. Post-Main-Sequence Evolution A. Expansion into a Giant ...
... A. Stellar Models B. Why is there a Main Sequence? C. The Upper End of the Main Sequence D. The Lower End of the Main Sequence E. The Life of a Main-Sequence Star F. The Life Expectancies of Stars II. Post-Main-Sequence Evolution A. Expansion into a Giant ...
Parallax, Event Horizon, HR diagrams equation
... G = universal gravitational constant M = mass of star Surrounding a black hole is a “photon sphere” which looks like a circle of light. A photon sphere is a spherical region of space where gravity is strong enough so that photons are forced to travel in orbits. The radius of the photon sphere is rp: ...
... G = universal gravitational constant M = mass of star Surrounding a black hole is a “photon sphere” which looks like a circle of light. A photon sphere is a spherical region of space where gravity is strong enough so that photons are forced to travel in orbits. The radius of the photon sphere is rp: ...
Star Maps and Constellations
... How to “project” a round ball onto flap map? Mercator Map is made by project a ball onto a cylinder (problems at the poles!) ...
... How to “project” a round ball onto flap map? Mercator Map is made by project a ball onto a cylinder (problems at the poles!) ...
M = 5.5 - The Millstone
... Case 1 Stars = 1 Solar Mass -> Red Giant -> White dwarf Stars such as our Sun move off the main sequence and enter the red giant branch (RGB), when the core hydrogen is exhausted. With no thermonuclear fusion in the core, the star contracts . An outer shell of hydrogen continues to burn and the radi ...
... Case 1 Stars = 1 Solar Mass -> Red Giant -> White dwarf Stars such as our Sun move off the main sequence and enter the red giant branch (RGB), when the core hydrogen is exhausted. With no thermonuclear fusion in the core, the star contracts . An outer shell of hydrogen continues to burn and the radi ...