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6 Conclusions and Recommendations
Pages 58-62

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From page 58... ... The research activities identified in the concluding sections of Chapters 2 through 5 are the foundation on which TGSAA's overall recommended priorities for space astronomy and astrophysics are based. The priorities recommended in Chapters 2 through 5 (Box 6.1 J encompass highly diverse spatial, temporal, and energy scales, ranging from extrasolar planets to supermassive black holes, from the origin of the universe to its ultimate fate, and from submillimeter radiation emitted by forming stars to ultrahigh-energy cosmic rays of unknown origin. Read the entire page →
From page 59... ... Determination of the geometry and content of the universe by measurement of the fine-scale anisotropy of the cosmic microwave background radiation. The establishment of the hot big bang cosmology is, as explained in Chapter 5, one of the great scientific achievements of the twentieth century. Read the entire page →
From page 60... ... While the Hubble and Keck telescopes have given observers a glimpse of the most luminous objects at a time a few billions years after the big bang, astronomers currently know very little about ordinary galaxies like the Milky Way at that epoch. Researchers cannot currently obtain spectroscopic information for most of the galaxies shown in the so-called Hubble Deep Field (see Figure 4.1) Read the entire page →
From page 61... ... These studies lend support to the hypothesis that accretion onto black holes is the fundamental explanation for the exceptional luminosity of quasars. Observations with the Very Long Baseline Array have obtained even more compelling evidence that the nuclei of the much more common, mildly "active" galaxies contain black holes with masses some 10 million times that of the Sun. Read the entire page →
From page 62... ... The only direct evidence for dark matter derives, as discussed in Chapters 4 and 5, from astrophysical inference of gravitationally bound objects, such as galaxies and clusters of galaxies, but the evidence is ubiquitous and consistent numbers are measured by several very different techniques. Astronomers still have no idea whether this dark matter takes the form of a collection of compact dead stars or primordial black holes, a hitherto unseen elementary particle, or something even more exotic. Read the entire page →

From page 58...

... The research activities identified in the concluding sections of Chapters 2 through 5 are the foundation on which TGSAA's overall recommended priorities for space astronomy and astrophysics are based. The priorities recommended in Chapters 2 through 5 (Box 6.1 J encompass highly diverse spatial, temporal, and energy scales, ranging from extrasolar planets to supermassive black holes, from the origin of the universe to its ultimate fate, and from submillimeter radiation emitted by forming stars to ultrahigh-energy cosmic rays of unknown origin.

Read the entire page →

From page 59...

... Determination of the geometry and content of the universe by measurement of the fine-scale anisotropy of the cosmic microwave background radiation. The establishment of the hot big bang cosmology is, as explained in Chapter 5, one of the great scientific achievements of the twentieth century.

Read the entire page →

From page 60...

... While the Hubble and Keck telescopes have given observers a glimpse of the most luminous objects at a time a few billions years after the big bang, astronomers currently know very little about ordinary galaxies like the Milky Way at that epoch. Researchers cannot currently obtain spectroscopic information for most of the galaxies shown in the so-called Hubble Deep Field (see Figure 4.1)

Read the entire page →

From page 61...

... These studies lend support to the hypothesis that accretion onto black holes is the fundamental explanation for the exceptional luminosity of quasars. Observations with the Very Long Baseline Array have obtained even more compelling evidence that the nuclei of the much more common, mildly "active" galaxies contain black holes with masses some 10 million times that of the Sun.

Read the entire page →

From page 62...

... The only direct evidence for dark matter derives, as discussed in Chapters 4 and 5, from astrophysical inference of gravitationally bound objects, such as galaxies and clusters of galaxies, but the evidence is ubiquitous and consistent numbers are measured by several very different techniques. Astronomers still have no idea whether this dark matter takes the form of a collection of compact dead stars or primordial black holes, a hitherto unseen elementary particle, or something even more exotic.

Read the entire page →

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6 Conclusions and Recommendations Pages 58-62

6 Conclusions and Recommendations
Pages 58-62