Secrets of the Deep Sky

Jupsat Pro Astronomy Software

Jupsat Pro is a revolutionary new software for Windows PCs that allows you to get all of the information on the largest planet in our solar system. You don't have to wonder about the gas giant anymore; you can learn everything you want to know about it from this software. You will be able to know more about Jupiter than anyone who is not an astronomer by trade. You will get access to a LIVE stream from Nasa from satellites that are watching Jupiter constantly. You will be able to look at the planet as often as you want from the comfort of your own home! You can also see the positions of Jupiter's four moons at any given time that you want to; you can track the great red spot across the face of the planet if you want to! Everything you want to know about the most imposing planet in our solar system is right at your fingers! Continue reading...

Jupsat Pro Astronomy Software Overview


4.6 stars out of 11 votes

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Price: $24.95

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My Jupsat Pro Astronomy Software Review

Highly Recommended

Some users might complain that the default interface is more complicated than it needs to be. If you just panicked grab a quick drink and relax because this baby has a full customizable interface.

However, Jupsat Pro Astronomy Software is a fairly good program considering the standard and depth of the material it provides. In addition to being effective and its great ease of use, this software makes worth every penny of its price.

Secrets of the Deep Sky

Brian Ventrudo, author of Secrets of the Deep Sky, reveals how to look beyond the easy sights such as Venus, Mars, the Pleiades star cluster, and the moon, and find the much deeper parts of the beautiful night sky that most people never get see. You will learn to increase the reach of your telescope to look farther into the sky, and find any object of the night sky that you want to see. You will learn the celestial coordinate system, to learn how to map any object in the sky. You can also learn to estimate distances in the night sky. You can learn to change your field of view to see wide objects like massive nebula, and simple techniques to preserve your night vision and increase the sensitivity of your eyes by 20-40x. This eBook guide shows everyone, from the beginner to the more experience stargazer the best tricks to get the most out of every night sky.

Secrets of the Deep Sky Overview

Contents: Ebook
Author: Brian Ventrudo
Official Website:
Price: $29.00

Timely and Broad Opportunity

The history of science across the vast sweep of human history undermines any complacency that progress will somehow happen automatically, without the necessity for vigorous action. Most societies at most points in their history were uninterested in science, and they advanced technologically only very slowly, if at all. On rare occasions, such as the pyramid-building age in Ancient Egypt or the roughly contemporaneous emergence of intensive agriculture and trade in Babylon, the speed of progress seemed to accelerate, although at a much slower rate than that experienced by Europe and North America over the past five centuries. For modern civilization, the most relevant and instructive precursor remains the classical civilizations of Greece and Rome. Building on the scientific accomplishments of the Babylonians and Egyptians, the Greeks accomplished much in mathematics, astronomy, biology, and other sciences. Their technological achievements probably peaked in the Hellenistic Age as...

National SE Funding Trends

The foundation of major S& E trends are built up over time at the confluence of other areas of R& D and brought to the front by a catalytic development such as a scientific breakthrough or a societal need. For example, space exploration has grown at the confluence of developments in jet engines, aeronautics, astronomy, and advanced materials and has been accelerated by global competitiveness and defense challenges. Information technology advancement has grown at the confluence of developments in mathematics, manufacturing on a chip, materials sciences, media, and many other areas and has been accelerated by the economic impact of improved computing and communication. Nanotechnology development has its origins in scaling down approaches, in building up from atomic and molecular levels, and in the confluence of better understanding of chemistry, biosystems, materials, simulations, and engineering, among others it has been accelerated by its promise to change the nature of almost...

The rise of nanotechnology in the United States

Richard Smalley, a professor of chemistry, physics and astronomy at Rice University before he died in 2005, and who won the 1996 Nobel Prize in Chemistry for the discovery of fullerenes, also considered that nanotechnology offers enormous benefits. On 12 May 1999, in hearings before the Senate Subcommittee on Science, Technology, and Space that were the forerunner to the establishment of the NNI, he testified 'We are about to be able to build things that work on the smallest possible length scales. It is in our Nation's best interest to move boldly into this new field.' He took issue with Drexler, however, over the scientific basis of self-replicators. Smalley fears that speculation over dramatic dangers could jeopardize public support for the technology.

Space Applications for Infrared Sensors

Infrared sensors offer a variety of space applications, such as astronomy instrument sighting, satellite-based earth atmosphere imaging research, navigation tools for space systems, and optical data communication. Improvements in infrared sensors will mostly be affected by the development of 2D (quantum well), 1D (quantum wire), or 0D (quantum dot) nanostructures.

Manufacturing of ultraprecise surfaces

In space technology ultraprecise surface processing is important for the production of components for optical satellite communication or of optics (IR to x-ray range) for the earth observation and astronomy. Telescope Conventional x-ray mirrors according to the Wolter principle are manufactured from glass ceramics with a thin metal coating. The disadvantages of these conventional glass-ceramic, monolithic optics are a relatively high weight and a limited collecting surface. Modern x-ray mirrors are based on very thin single mirrors and mirror foils with a nested design. Thus the collecting surface of the optics can be substantially increased. Examples for this design are the European XMM (X-ray Multi Mirror) x-ray telescope, which consists of three telescopes each of which have 27 single nickel mirrors, and the Astro-E with 5 telescopes and 180 mirror foils each.58 Such mirror foils, with a diameter of typically about 200 im, permit a very close nesting and thus an increased...

MEMS Deformable Micro Mirrors

Astronomy scientists believe that deployment of MEMS deformable mirrors (MDMs) in adaptive optics will compensate for atmospheric aberrations in the optical path of laser beams or telescopes 8 . Airborne laser beams suffer from adverse effects of scattering, reflection, and absorption while traveling in higher atmospheric regions. These scientists further believe that incorporating adaptive optics using MDMs will lead to dramatic improvement in image quality, which has potential application in vision science. The overall manufacturing process for the MDMs is very expensive now, because it is very expensive to produce deformable mirrors from wafer-thin glass sheets with bonded ES actuators. Deformable mirror manufacturing costs can be significantly reduced by producing an ES deformable mirror using the micromachined silicon membrane technology developed at Stanford University.

Committee Biographies

Theis is director of physical sciences with the IBM Thomas J. Watson Research Center. He received a B.S. in physics from Rensselaer Polytechnic Institute in 1972 and M.S. and Ph.D. degrees from Brown University in 1974 and 1978, respectively. A portion of his Ph.D. research was done at the Technical University of Munich, where he completed a postdoctoral year before joining IBM Research in 1979. Dr. Theis joined the department of semiconductor science and technology at the IBM Watson Research Center to model the electronic properties of two-dimensional systems. In 1993 he was named senior manager of silicon science and technology, where he was responsible for exploratory materials and process integration work bridging between research and the IBM microelectronics division. He assumed his current position as director of physical sciences in February 1998. Dr. Theis is a member of the Nanotechnology Technical Advisory Group of the President's Council of Advisors on Science and...

List of Contributors

Department of Physics & Astronomy Center for Molecular Electronics University of Missouri-St. Louis St. Louis, MO, USA. for Molecular Electronics Departments of Chemistry & Biochemistry and Physics & Astronomy University of Missouri-St. Louis St. Louis, MO, USA.

Machine Intelligence

Still, the idea of building ordinary computers once was shocking. By the mid 1800s, though, Charles Babbage had built mechanical calculators and part of a programmable mechanical computer 5 however, he ran into difficulties of finance and construction. One Dr. Young helped not at all he argued that it would be cheaper to invest the money and use the interest to pay human calculators. Nor did the British Astronomer Royal, Sir George Airy an entry in his diary states that On September 15th Mr. Goulburn asked my opinion on the utility of Babbage's calculating machine I replied, entering fully into the matter, and giving my opinion that it was worthless.

Non Drexlerian Echoes

I can only make exploratory gestures toward a better understanding of nano's orientation to the past here, but it seems so unusual and so central to the current framing of nanotechnology that it deserves more intensive study. It is possible that nano shares this kind of rhetoric with other non-presentist fields like astronomy, where participants orient explicitly to pre-scientific ancestors of the modern discipline (and even occasionally use the work of those ancestors to better understand the history of the objects of study).

Infrared sensors

IR sensors offer a multiplicity of application potential in space, e.g. for the satellite-based earth observation and atmosphere research, for astronomy, as navigation aid for space systems or for optical data communication. Approaches for the miniaturization and futher improvement of infrared sensors are based among other things on the application of two-(quantum well), one- (quantum wire) or zero-dimensional (quantum dot) nanostructures. With the help of quantum well or quantum dot structures the detection characteristics of IR sensors can be adjusted selectively to the relevant spectral region (band gap engineering). Quantum well IR sensors, based on GaAs are developed for example by the Center for Space Microelectronics Technology of NASA for special space applications. This QWIP consists of a GaAs-layer, which is embedded sandwich-like in two AlxGa1.xAs layers. The characteristics of the quantum wells can be adjusted by varying the thickness of the GaAs layer and the composition...


Before describing the technique in detail, it is worth spending some time reviewing the birth and subsequent development of tomography, and of electron tomography in particular. The need to obtain 'structures' using data of lower dimensionality is present in many different fields of physical and life sciences. It was in the field of Astronomy that in 1956 Bracewell 25 proposed a method of reconstructing a 2D map of solar emission from a series of 1D 'fan beam' profiles measured by a radio telescope. This pioneering work covered the mathematical formulation ofprojection and reconstruction but despite its clear potential, this work had little impact beyond its immediate field. However, in 1963, interest in tomography was rekindled by its possible use in medical sciences 26 . This led to the development of the X-ray computerised tomography (CT) scanner 27 , known more commonly as the CAT-scan (computer assisted tomography or computerised axial tomography). This remarkably successful...

Telescopes Mastery

Telescopes Mastery

Through this ebook, you are going to learn what you will need to know all about the telescopes that can provide a fun and rewarding hobby for you and your family!

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