What do we see in the night sky - Laureate International College

... A collection of many ___________________ held together by gravity is called a galaxy. There are billions and billions of galaxies in the universe. Our solar system is located in the ___________________ galaxy. Galaxies also contain masses of _____________. The gas is mainly ____________ atoms. Space ...

nasafinal - University of Oregon

... (hereafter XUV) features around normal galaxies that stimulated our interest in using PMO to discover possible new candidates for follow-up imaging with the GALEX satellite. Using the initial research money granted by the OSGC, we were able to successfully acquire observing time during cycle 4 of th ...

Hubble - STScI

Galaxy Notes Presentation

...  Cannot actually count the number of stars in the galaxy, can estimate as roughly 100 billion ...

Unit 1

runaway - Astronomy & Astrophysics Group

... whatever part of it the telescope is directed, a vast crowd of stars is immediately presented to view. Many of them are rather large and quite bright, while the number of smaller ones is quite beyond calculation.” from The Starry Messenger (1610) ...

Hubble Space Telescope Image

... . The tiny red dot just left of top center also intrigues researchers. They believe it may be an extremely remote object made visible by the cluster's magnifying powers. This is the second time Hubble observed this cluster. ...

News Release - האוניברסיטה העברית

... Universe billions of years ago has been formulated by Hebrew University of Jerusalem cosmologists. The theory takes issue with the prevailing view on how the galaxies came to exist. The new theory, motivated by advanced astronomical observations and based on state-of-the-art computer simulations, ma ...

All these different energies are classified according to wavelength

Lecture 2: ppt, 5 MB

...  Chandra flies 200 times higher than Hubble - more than 1/3 of the way to the moon!  Chandra can observe X-rays from clouds of gas so vast that it takes light five million years to go from one side to the other!  During maneuvers from one target to the next, Chandra slews more slowly than the min ...

The Big Bang

... • Use Kepler’s 3rd Law to estimate the mass of the galaxy ...

WK10revisedoneweek

... Spiral Galaxies Largest fraction of galaxies ...

The Hubble Deep Field (HDF)

... one where very few stars are seen. The image was assembled from 342 separate exposures taken with the Space Telescope's Wide Field and Planetary Camera 2 over ten consecutive days between December 18 and December 28, 1995. The field is so small that only a few foreground stars in the Milky Way lie w ...

The Hubble Space Telescope

... understanding of the Universe. ...

Study Guide Ch10,11 and 12

... to explain their energy output and other characteristics. 11. Briefly relate the story of the discovery of quasars 12. Describe the current explanation of quasars and their energy sources. ...

knowledge quiz - Discovery Education

... A. the star’s luminosity, or brightness B. the star’s color C. the star’s size D. All of these are possible characteristics. 7. Although they did not have telescopes, ancient people studied space. What did they observe? A. details on planets in far-away galaxies B. only the sun and the moon C. the c ...

Nineteenth lecture

... The nebulae gradually collapse and commonly start rotating, to form galaxies, like the Andromeda Galaxy, pictured here. (Note the other galaxies also in the picture!) ...

7th Grade Astronomy Study Guide

... 1. An effect in which a star or galaxy appears to move quickly away from an observer is called ____________________. 2. A phenomenon in which sound seems to increase or decrease in relation to the direction it is moving is the ____________________. ...

Star Groups and Big Bang Power Point

... Quasar quasi-stellar radio source; a very luminous object that produces energy at a high rate.  Quasars appear as points of light, similar to stars.  Quasars are located in the centers of galaxies that are distant from Earth. ...

The Universe and Galaxies - West Jefferson Local Schools

Astronomical Unit (AU)

... • Well-established idea that is supported by scientific evidence. • Theory statements can be refuted, but not verified, no matter how strongly we believe in the truth of a theory. It is always possible for it to be falsified. ...

Galaxy clusters - University of Iowa Astrophysics

An analogy

... – distant galaxies are younger than those used to define the Hubble Sequence – more peculiar galaxies are observed: could be due to patchy star formation (younger age) or to interactions being more frequent (denser Universe) – resolution is poor compared to local galaxies and usually limited to a fe ...

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Hubble Deep Field

The Hubble Deep Field (HDF) is an image of a small region in the constellation Ursa Major, constructed from a series of observations by the Hubble Space Telescope. It covers an area 2.5 arcminutes across, about one 24-millionth of the whole sky, which is equivalent in angular size to a 65 mm tennis ball at a distance of 100 metres. The image was assembled from 342 separate exposures taken with the Space Telescope's Wide Field and Planetary Camera 2 over ten consecutive days between December 18 and December 28, 1995.The field is so small that only a few foreground stars in the Milky Way lie within it; thus, almost all of the 3,000 objects in the image are galaxies, some of which are among the youngest and most distant known. By revealing such large numbers of very young galaxies, the HDF has become a landmark image in the study of the early universe, with the associated scientific paper having received over 900 citations by the end of 2014.Three years after the HDF observations were taken, a region in the south celestial hemisphere was imaged in a similar way and named the Hubble Deep Field South. The similarities between the two regions strengthened the belief that the universe is uniform over large scales and that the Earth occupies a typical region in the Universe (the cosmological principle). A wider but shallower survey was also made as part of the Great Observatories Origins Deep Survey. In 2004 a deeper image, known as the Hubble Ultra-Deep Field (HUDF), was constructed from a few months of light exposure. The HUDF image was at the time the most sensitive astronomical image ever made at visible wavelengths, and it remained so until the Hubble Extreme Deep Field (XDF) was released in 2012.

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Hubble Deep Field