Forum for Science, Industry and Business

Sponsored by:     3M 
Search our Site:

 

Blasting off to Mercury and other planets with astronomy

Man has always been drawn to the discovery of alien worlds and planets. And this urge has reached its zenith thanks to astronomy and travel to alien planets.

Astronomy adds a whole new dimension to the scientific impulse to discover and conquer other planets and systems beyond earth's realm. Astronomy allows scientists to not only carry out earth-based observations of planets such as Mercury. It also provides the basis for the continual discovery of new galaxies and unknown planets. Astronomy has made huge advances, due in part to the exploration of Mercury. innovations-report provides continuous coverage of the general advances being made in astronomy, as well as those specific to the discovery of Mercury, in continuously updated articles and scientific reports about astronomy, Mercury and other planets and galaxies.

Scientific look at Mercury

innovations-report encompasses a comprehensive astronomy database filled with a rich assortment articles and reports on all areas of science, research and innovations. This of course includes a large selection of documents on physics and astronomy. Whether it's achievements in astronomy, the discovery of new planets or progress in the journey to Mercury, innovations-report provides readers all of the latest developments from numerous independent research sources on the subjects of "Mercury", "planets" and general astronomy.

Astronomy - an interdisciplinary field

Apart from finding the right documents and sources covering technical advances in astronomy, readers can also learn about the findings and thought processes of other disciplines (philosophy for instance) that are actively examining astronomy and its approaches, as well as plans for journeys to planets like Mercury. The database contains a large selection of free information and articles covering basic issues ranging from "How far is Mercury from earth? " to the composition of Mercury and other planets. The path to the various planets, be it Mars, Pluto or Mercury, is not necessarily light years removed. A visit to innovations-report leads the reader to remote worlds of astronomy, alien planets and galaxies, planets related to Mars and Mercury, through the Milky Way and into black holes. Or simply put, through the entire cosmos of astronomy.

How heavy is Mercury?

Determining the weight of a planet like Mercury would appear to be a difficult undertaking. After all, it's not as simple as placing a planet on a scale, whether it's Mercury or some other planet. Such aspects are nevertheless a part of astronomy. With innovations-report.com, readers can get an exciting look at the world of astronomy, Mercury and other planets. Among other information, you can find reports that explain how researchers go about calculating the weight and dimensions of Mercury and other planets. Astronomy does not involve dreaming. Instead, it has more to do with applying methods and strategies from the field of physics. The distance to the planets is a constant challenge for researchers. Those with an interest in astronomy can rely on innovations-report to discover how scientists tackle these challenges, what knowledge they have gained about planets such as Mercury and the progress toward journeys to other planets.

Physics and Astronomy

This area deals with the fundamental laws and building blocks of nature and how they interact, the properties and the behavior of matter, and research into space and time and their structures.

innovations-report provides in-depth reports and articles on subjects such as astrophysics, laser technologies, nuclear, quantum, particle and solid-state physics, nanotechnologies, planetary research and findings (Mars, Venus) and developments related to the Hubble Telescope.

Latest News:

Page anfang | 916 | 917 | 918 | 919 | 920 | ende

External Magnetic Field Causes The Puzzling Heating Of The Solar Corona

The Russian astrophysicists have theoretically modelled coronal loop oscillations and have shown that the plasma present in coronal loops is quite "normal". So, the puzzle of the Sun`s atmosphere heating remains unresolved. Coronal loops, immense magnetic arches more hot and dense than the coronal gas, are formed by magnetic fields. They are anchored in the Sun`s visible surface rising up to 100 - 200 thousand kilometres. In the active regions of the Sun these loops, which are 1000 - 21.06.2002 | nachricht Read more

The Most Rigid Telescope

The scientists from NPO Astrofizika, have designed a terrestrial telescope, which has no match all over the world. Fundamentally new technical solutions ensure that a unique telescope with the mirror of 25 meters in diameter is able to investigate previously invisible celestial objects of up to the 29-th magnitude. What makes astronomers design the telescopes with the larger and larger mirrors? Certainly, astronomers are driven by the capacity of a telescope to provide more informati 18.06.2002 | nachricht Read more

New Insight Into Origin of Superconductivity in Magnesium Diboride

A team of scientists from the U.S. Department of Energy’s Brookhaven National Laboratory, the U.S. Department of Commerce’s National Institute of Standards and Technology (NIST), and the University of Oslo in Norway has provided new insight into the superconductivity of magnesium diboride (MgB2), an unusual superconductor discovered only last year. The new result appears in the June 17, 2002 issue of Physical Review Letters. Understanding the origin of superconductivity — the ability of som 18.06.2002 | nachricht Read more

Newfound Planetary System Has "Hometown" Look

After 15 years of observation and a lot of patience, the world’s premier planet-hunting team has found a planetary system that reminds them of our home solar system. Geoffrey Marcy, astronomy professor at the University of California, Berkeley, and astronomer Paul Butler of the Carnegie Institution of Washington, D.C., today announced the discovery of a Jupiter-like planet orbiting a Sun-like star at nearly the same distance as the Jovian system orbits our sun. "All other extr 17.06.2002 | nachricht Read more

Quantum computing with individual atoms

Researchers at the University of Michigan’s Center for Optical Coherent and Ultrafast Science (FOCUS) and Department of Physics have reported the first demonstration of laser-cooling of individual trapped atoms of different species. This may be an important step in the construction of a future "quantum computer," in which quantum superpositions of inputs are processed simultaneously in a single device. Trapped atoms offer one of the only realistic approaches to precisely controlling the complex 13.06.2002 | nachricht Read more

Discovery of Three Faint Companions of Bright Stars Brings Historic Mount Wilson Telescope to Cutting Edge of Astronomy

Three small, faint stars, apparently locked in the gravitational embrace of much larger and brighter companions, have been discovered in the first light from a new infrared camera with innovative optics on the 100-inch telescope at the Mount Wilson Observatory in Pasadena, California. "This is the first time the historic Mount Wilson telescope has looked at the universe through this new infrared eye, and already it is making new discoveries," says Jian Ge, assistant professor of astronomy an 12.06.2002 | nachricht Read more

ESA develops a smarter way to travel through space

As scientists demand more from space missions travelling to other worlds and beyond, traditional rocket technologies are beginning to show shortcomings. In response, ESA are helping to develop a new type of rocket engine, known as solar-electric propulsion, or more commonly, an ion engine, that can mark a whole new era of space exploration. Solar-electric propulsion is ESA`s new spacecraft engine. It does not burn fuel as chemical rockets do; instead the technique converts sunlight into elec 11.06.2002 | nachricht Read more

Star Tiger to unveil submillimetre wave secrets

The Star Tiger team today begins a four-month pioneering research and development project at Rutherford Appleton Laboratories (RAL), which could lead to a real breakthrough for submillimetre wave imaging. For the first time under the ESA Star Tiger initiative, eleven scientists and specialists from seven different European countries (The United Kingdom, Ireland, Italy, Germany, France, the Netherlands, and Spain) are working together in an innovative way. The idea is to get together a small 05.06.2002 | nachricht Read more

Black holes in distant galaxies point to wild youth, Chandra discovers

Like ’flower power’ tattoos on aging ex-hippy baby boomers, unexpectedly large numbers of neutron stars and black holes in elliptical galaxies suggest some of these galaxies lived through a much wilder youth. The discovery by NASA’s Chandra X-ray Observatory may require a revision of how elliptical galaxies evolved. "For the first time, Chandra has allowed us to distinguish hundreds of star-like sources that are black holes and neutron stars in distant elliptical galaxies," said Craig Sara 05.06.2002 | nachricht Read more

Black hole dynamo may be cosmos’ ultimate electricity generator

Researchers at the U.S. Department of Energy’s Los Alamos National Laboratory believe that magnetic field lines extending a few million light years from galaxies into space may be the result of incredibly efficient energy-producing dynamos within black holes that are somewhat analogous to an electric motor. Los Alamos researchers Philipp Kronberg, Quentin Dufton, Stirling Colgate and Hui Li today discussed this finding at the American Astronomical Society meeting in Albuquerque, N.M. B 04.06.2002 | nachricht Read more
Page anfang | 916 | 917 | 918 | 919 | 920 | ende

Die letzten 5 Focus-News des innovations-reports im Überblick:

Im Focus: Artificial agent designs quantum experiments

On the way to an intelligent laboratory, physicists from Innsbruck and Vienna present an artificial agent that autonomously designs quantum experiments. In initial experiments, the system has independently (re)discovered experimental techniques that are nowadays standard in modern quantum optical laboratories. This shows how machines could play a more creative role in research in the future.

We carry smartphones in our pockets, the streets are dotted with semi-autonomous cars, but in the research laboratory experiments are still being designed by...

Im Focus: Scientists decipher key principle behind reaction of metalloenzymes

So-called pre-distorted states accelerate photochemical reactions too

What enables electrons to be transferred swiftly, for example during photosynthesis? An interdisciplinary team of researchers has worked out the details of how...

Im Focus: The first precise measurement of a single molecule's effective charge

For the first time, scientists have precisely measured the effective electrical charge of a single molecule in solution. This fundamental insight of an SNSF Professor could also pave the way for future medical diagnostics.

Electrical charge is one of the key properties that allows molecules to interact. Life itself depends on this phenomenon: many biological processes involve...

Im Focus: Paradigm shift in Paris: Encouraging an holistic view of laser machining

At the JEC World Composite Show in Paris in March 2018, the Fraunhofer Institute for Laser Technology ILT will be focusing on the latest trends and innovations in laser machining of composites. Among other things, researchers at the booth shared with the Aachen Center for Integrative Lightweight Production (AZL) will demonstrate how lasers can be used for joining, structuring, cutting and drilling composite materials.

No other industry has attracted as much public attention to composite materials as the automotive industry, which along with the aerospace industry is a driver...

Im Focus: Room-temperature multiferroic thin films and their properties

Scientists at Tokyo Institute of Technology (Tokyo Tech) and Tohoku University have developed high-quality GFO epitaxial films and systematically investigated their ferroelectric and ferromagnetic properties. They also demonstrated the room-temperature magnetocapacitance effects of these GFO thin films.

Multiferroic materials show magnetically driven ferroelectricity. They are attracting increasing attention because of their fascinating properties such as...

All Focus news of the innovation-report >>>

Anzeige

Anzeige

Event News

10th International Symposium: “Advanced Battery Power – Kraftwerk Batterie” Münster, 10-11 April 2018

08.01.2018 | Event News

See, understand and experience the work of the future

11.12.2017 | Event News

Innovative strategies to tackle parasitic worms

08.12.2017 | Event News

 
Latest News

Let the good tubes roll

19.01.2018 | Materials Sciences

How cancer metastasis happens: Researchers reveal a key mechanism

19.01.2018 | Health and Medicine

Meteoritic stardust unlocks timing of supernova dust formation

19.01.2018 | Physics and Astronomy

VideoLinks
B2B-VideoLinks
More VideoLinks >>>