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... known, clearly separating galaxies from Galactic nebulae. • Note: it was known that Galactic nebulae had emisson spectra and galaxies had continous (stellar) spectra, but no one figured it out. ...
... known, clearly separating galaxies from Galactic nebulae. • Note: it was known that Galactic nebulae had emisson spectra and galaxies had continous (stellar) spectra, but no one figured it out. ...
Astronomy Test Objective 1: Origins of the Universe Multiple Choice
... Black holes in the centers of giant galaxies—some more than one billion solar masses—had enough infalling gas to once blaze as quasars. The final mass of a black hole is not primordial, but instead is determined during the galaxy formation process. This shows that there is a close relationship betwe ...
... Black holes in the centers of giant galaxies—some more than one billion solar masses—had enough infalling gas to once blaze as quasars. The final mass of a black hole is not primordial, but instead is determined during the galaxy formation process. This shows that there is a close relationship betwe ...
HOW HIGH ARE PULSAR MOUNTAINS?
... out from their sources at the speed of light. Far away from the source their effect is tiny. The distortions from even the strongest sources (which are some of the most violent events in the Universe) stretch and squeeze the distance between any objects they pass by a fractional amount (called the s ...
... out from their sources at the speed of light. Far away from the source their effect is tiny. The distortions from even the strongest sources (which are some of the most violent events in the Universe) stretch and squeeze the distance between any objects they pass by a fractional amount (called the s ...
Where are we? - ThinkChemistry
... different “solar systems”. made up of billions of different galaxies. a sphere of rock and/or gas which orbits a star. a sphere of rock and/or gas which orbits a planet. ...
... different “solar systems”. made up of billions of different galaxies. a sphere of rock and/or gas which orbits a star. a sphere of rock and/or gas which orbits a planet. ...
JSchreiberTalk3 - FSU High Energy Physics
... Background info (formation/evolution of galaxies) Implications of theories ...
... Background info (formation/evolution of galaxies) Implications of theories ...
Effects of r-modes induced differential rotation on long-term
... A and N are two constants determined by the initial condition. Sa & Tome (2005) suggested N = 2l -1 and redefined A by introducing a new free parameter K as This second-order solution gives a differential ...
... A and N are two constants determined by the initial condition. Sa & Tome (2005) suggested N = 2l -1 and redefined A by introducing a new free parameter K as This second-order solution gives a differential ...
Chapter 23: Geometric Optics
... inside of the spherical surface we have a concave mirror (it is like we are looking into a cave). For all spherical mirrors we find: from objects very far away, rays arrive essentially parallel. parallel rays are focused at different spots; the farther the ray is from the principal axis, the clo ...
... inside of the spherical surface we have a concave mirror (it is like we are looking into a cave). For all spherical mirrors we find: from objects very far away, rays arrive essentially parallel. parallel rays are focused at different spots; the farther the ray is from the principal axis, the clo ...
Gravitational Potential Energy and Work (Syllabus: 9.2.1.2.2
... An object is stationary in space at a distance 10 000 km from the centre of a planet. It is determined that 1.0 MJ of work is necessary to move the object to a stationary point 20 000 km from the centre of the planet. Calculate how much more work needs to be done to move the object to a stationary p ...
... An object is stationary in space at a distance 10 000 km from the centre of a planet. It is determined that 1.0 MJ of work is necessary to move the object to a stationary point 20 000 km from the centre of the planet. Calculate how much more work needs to be done to move the object to a stationary p ...
No Slide Title
... Newton’s theory Mercury's elliptical path around the Sun shifts slightly with each orbit such that its closest point to the Sun (or "perihelion") shifts forward with each pass. ...
... Newton’s theory Mercury's elliptical path around the Sun shifts slightly with each orbit such that its closest point to the Sun (or "perihelion") shifts forward with each pass. ...
Light – Reflection & Mirrors
... Light – Reflection & Mirrors 4. Plane Mirrors – Flat mirrors produce an image that is right – side up and the same size as the object being reflected called a virtual image. ...
... Light – Reflection & Mirrors 4. Plane Mirrors – Flat mirrors produce an image that is right – side up and the same size as the object being reflected called a virtual image. ...
Big Bang Theory
... • Hubble found that most galaxies had redshifted (meaning…) • They are moving away from the observer • This means that the universe is expanding • In honour of this discovery: the first large space telescope was named after Hubble ...
... • Hubble found that most galaxies had redshifted (meaning…) • They are moving away from the observer • This means that the universe is expanding • In honour of this discovery: the first large space telescope was named after Hubble ...
Level 2: Reflection and Refraction
... 1994B5. A point source S of monochromatic light is located on the bottom of a swimming pool filled with water to a depth of 1.0 meter, as shown above. The index of refraction of water is 1.33 for this light. Point P is located on the surface of the water directly above the light source. A person flo ...
... 1994B5. A point source S of monochromatic light is located on the bottom of a swimming pool filled with water to a depth of 1.0 meter, as shown above. The index of refraction of water is 1.33 for this light. Point P is located on the surface of the water directly above the light source. A person flo ...
Different types of YSOs
... Early solar system consisted of a planetary nebula-dust and gas surrounding protostar and early sun Chondrites & components clearly formed in nebula. Differentiated bodies too? ...
... Early solar system consisted of a planetary nebula-dust and gas surrounding protostar and early sun Chondrites & components clearly formed in nebula. Differentiated bodies too? ...
