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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 | 1 | 2 | 3 | 4 | 5 | ende

Researchers watch quantum knots untie

After first reporting the existence of quantum knots, Aalto University & Amherst College researchers now report how the knots behave

A quantum gas can be tied into knots using magnetic fields. Our researchers were the first to produce these knots as part of a collaboration between Aalto...

23.10.2019 | nachricht Read more

Deuteron-like heavy dibaryons -- a step towards finding exotic nuclei

Have you ever wondered how the Sun creates the energy that we get from it every day and how the other elements beside hydrogen have formed in our universe?

Perhaps you know that this is due to fusion reactions where four nuclei of hydrogen join together to produce a helium nucleus. Such nucleosynthesis processes...

22.10.2019 | nachricht Read more

A cavity leads to a strong interaction between light and matter

Researchers have succeeded in creating an efficient quantum-mechanical light-matter interface using a microscopic cavity. Within this cavity, a single photon is emitted and absorbed up to 10 times by an artificial atom. This opens up new prospects for quantum technology, report physicists at the University of Basel and Ruhr-University Bochum in the journal Nature.

Quantum physics describes photons as light particles. Achieving an interaction between a single photon and a single atom is a huge challenge due to the tiny...

22.10.2019 | nachricht Read more

A new stable form of plutonium discovered at the ESRF

An international team of scientists, led by the Helmholtz Zentrum Dresden-Rossendorf (HZDR), have found a new compound of plutonium with an unexpected, pentavalent oxidation state, using the ESRF, the European Synchrotron, Grenoble, France. This new phase of plutonium is solid and stable, and may be a transient phase in radioactive waste repositories. The results are published this week in Angewandte Chemie as a Very Important Paper (VIP).

Countries across the globe are making efforts to improve the safety of the nuclear waste storage in order to prevent release of radioactive nuclides to the...

21.10.2019 | nachricht Read more

Double layer of graphene helps to control spin currents

New type of transistor one step closer

In order to make transistors that operate using the spin of electrons, rather than their charge, it is necessary to find a way of switching spin currents on...

18.10.2019 | nachricht Read more

Analysis of Galileo's Jupiter entry probe reveals gaps in heat shield modeling

Data from the probe's 1995 fireball has continued to confound those studying the mission. New simulations and faster computers point to bettering atmospheric entry vehicles.

The entry probe of the Galileo mission to Jupiter entered the planet's atmosphere in 1995 in fiery fashion. As the probe descended from Mach 50 to Mach 1 and...

17.10.2019 | nachricht Read more

Creating miracles with polymeric fibers

Researchers studied the fabrication of polymeric fibers for use in advanced health care

"Polymers are very, very useful materials when it comes to modern applications."

17.10.2019 | nachricht Read more

Ultrafast particle interactions could help make quantum information devices feasible

Research presents the detection of energy transfer from excited electrons to the crystal lattice on the femtosecond timescale. Knowledge could contribute to the development of materials that prolong the coherence time

Energy is information. Lengthening the time during which a system is capable of retaining energy before losing it to the local environment is a key goal for...

17.10.2019 | nachricht Read more

Quantum physics: Ménage à trois photon-style

Physicists from UNIGE have discovered a new quantum property: By placing 3 pairs of photons in a network, it is possible to entangle them and create new ultra-strong correlations

Entanglement is one of the properties specific to quantum particles. When two photons become entangled, for instance, the quantum state of the first will...

16.10.2019 | nachricht Read more

Always on beat: ultrashort flashes of light under optical control

Ultrashort laser pulses have enabled scientists and physicians to carry out high-precision material analyses and medical procedures. Physicists from the University of Bayreuth and the University of Göttingen have now discovered a new method for adjusting the extremely short time intervals between laser flashes with exceptional speed and precision. The intervals can be increased or decreased as needed, all at the push of a button. Potential applications range from laser spectroscopy to microscopy and materials processing. The researchers have now presented their latest findings in the journal Nature Photonics.

Laser pulses have long been utilized in research laboratories, industrial production, and medical therapies. In these applications it is often crucial that the...

16.10.2019 | nachricht Read more
Page anfang | 1 | 2 | 3 | 4 | 5 | ende

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

Im Focus: Researchers watch quantum knots untie

After first reporting the existence of quantum knots, Aalto University & Amherst College researchers now report how the knots behave

A quantum gas can be tied into knots using magnetic fields. Our researchers were the first to produce these knots as part of a collaboration between Aalto...

Im Focus: A cavity leads to a strong interaction between light and matter

Researchers have succeeded in creating an efficient quantum-mechanical light-matter interface using a microscopic cavity. Within this cavity, a single photon is emitted and absorbed up to 10 times by an artificial atom. This opens up new prospects for quantum technology, report physicists at the University of Basel and Ruhr-University Bochum in the journal Nature.

Quantum physics describes photons as light particles. Achieving an interaction between a single photon and a single atom is a huge challenge due to the tiny...

Im Focus: Solving the mystery of quantum light in thin layers

A very special kind of light is emitted by tungsten diselenide layers. The reason for this has been unclear. Now an explanation has been found at TU Wien (Vienna)

It is an exotic phenomenon that nobody was able to explain for years: when energy is supplied to a thin layer of the material tungsten diselenide, it begins to...

Im Focus: An ultrafast glimpse of the photochemistry of the atmosphere

Researchers at Ludwig-Maximilians-Universitaet (LMU) in Munich have explored the initial consequences of the interaction of light with molecules on the surface of nanoscopic aerosols.

The nanocosmos is constantly in motion. All natural processes are ultimately determined by the interplay between radiation and matter. Light strikes particles...

Im Focus: Shaping nanoparticles for improved quantum information technology

Particles that are mere nanometers in size are at the forefront of scientific research today. They come in many different shapes: rods, spheres, cubes, vesicles, S-shaped worms and even donut-like rings. What makes them worthy of scientific study is that, being so tiny, they exhibit quantum mechanical properties not possible with larger objects.

Researchers at the Center for Nanoscale Materials (CNM), a U.S. Department of Energy (DOE) Office of Science User Facility located at DOE's Argonne National...

All Focus news of the innovation-report >>>

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