Planetary Decadal Study Community White Paper

... The coupling between distinct plasma populations (i.e., the Io plasma torus and Jupiter's ionosphere) is a fundamental and unresolved problem in space physics. In many cases, coupling is imperfect due to an electric field component parallel to the ambient magnetic field. Parallel electric fields inh ...

Slide 1

... 5 billion years (expected to live another 5 billion) ...

Space Weather and its Planetary Connection: Future

... shelters, both on the spacecraft as well as radiation protection facilities on the target (e.g. Moon, planet), need to be taken into consideration with respect to travel time, local target space weather conditions and the phase of the solar cycle. ...

The Sun - MrsAllisonMagee

... elements that are present in a star. ...

Journal of Physics Special Topics

... size of the magnetopause that would be created by giving Mars a dipolar magnetic field. It is found that if the magnetic field at the equator is the same as that on Earth (' 31, 000nT) then the stand-off distance of the magnetopause would be roughly 37000km. ...

Earth PowerPoint

... Near the poles, the Van Allen belts intersect the atmosphere. The charged particles can escape; when they do, they create glowing light called aurorae. ...

Unit 3 - Lesson 8.2 2011 Sun

... The sun rotates on its axis one time every 25 days. currents are caused as a heated material is forced away from the core while cooled materials fall back down. are darker, cooler areas visible on the sun’s photosphere are found in active regions and release large quantities of gas (big bulge) _____ ...

PPT - ILWS

... Focus of Joint Mission How does the Sun generate the environment of the inner solar system? Primary Objectives: 1. Determine the sources, acceleration mechanisms and transport processes of solar energetic particles. 2. Determine how coronal mass ejections evolve from the Sun to the inner solar syst ...

“MILKY WAY MISSION”: Tour of the Solar System

... Earth is in the habitable zone and has just the right chemical composition for life Venus is too extreme for life as we know it to exist ...

Document

... are therefore Mars, the large moons of Jupiter (Io, Europa, Ganymede, and Callisto) and maybe Saturn's moon Titan. Although the moons of the giant planets are far outside the habitable zone, it is the nearby planets that could supply the necessary energy for life by tidal heating. Since these moons ...

Chapter08

... aurora australis — Light emitted by atoms and ions in the upper atmosphere near the south magnetic pole. The emission occurs when atoms and ions are struck by energetic particles from the Sun. aurora borealis — Light emitted by atoms and ions in the upper atmosphere near the north magnetic pole. The ...

The Dynamic Earth and Space Geodesy, SC/EATS 1010

... Astronomers can see billions of galaxies. Photograph from the Hubble space telescope. ...

Observations

... wind, Jupiter’s rotation and Io on magnetospheric processes. Temporal variations will be correlated with variations in the interplanetary environment, Jupiter’s rotational phase, and Io’s orbital phase. The Cassini flyby will take place during solar maximum conditions. A primary goal is to be able t ...

printer-friendly sample test questions

... 1st Item Specification: Identify the Earth as part of a solar system that is also part of a larger system that contains many thousands of star systems: the Milky Way Galaxy. Depth of Knowledge Level 1 1. Planets orbit around A. comets. B. galaxies. C. nebula. D. stars. 2. Stars, planets, and moons a ...

[ ] Comparative masses and densities of the planets

... When the solar system was forming, the inner part was too hot to retain lighter elements, such as H and He; these are absent from all terrestrial planet atmospheres. ...

ssp1_handout4

... This explains why the Earth has not retained its atmospheric molecular hydrogen. When the solar system was forming, the inner part was too hot to retain lighter elements, such as H and He; these are absent from all terrestrial planet atmospheres. (See also SSP2) For, e.g. molecular Nitrogen, for the ...

planetesimals - Mestre a casa

... kilometers in length (stronger than the simultaneous explosion of 1,000 atomic bombs). They release into space large amounts of electrically charged particles called solar wind. The Sun has a cyclical activity, so that every 11 years or so reaches a maximum of sunspots. The year 2013 was one of thos ...

b - GPSM

... 11. M. Echim and J. Lemaire, Positive density gradients at the magnetopause: interpretation in the framework of the impulsive penetration mechanism, J. Atm. Sol.Terr. Phys., 64, 2019-2028, 2002 12. O.D. Constantinescu, et al., Magnetic mirrors observed by Cluster in the magnetosheath, Geophys. Res. ...

SPHERES

... space, protects us from solar winds and suns radiation Asthenosphere is the nonrigid layer below the lithosphere, convection currents within move the tectonic plates Geosphere is the densest parts of Earth, which consist mostly of rock and a heterogenous mixture. The dense geosphere is also subdivid ...

New model better estimates mantle melt percentage

... Studying structures on Earth that arise because of mantle melt—hot spots, mid-ocean ridges, and continental rifts—helps scientists understand the evolution and dynamics of the planet. To quantify the fraction of mantle melting, scientists analyze seismic waves that travel through the mantle and crus ...

Living With a Star Radiation Belt Storm Probes and Associated

... • Shock-associated creation and decay of radiation belts; • Quantifying adiabatic and nonadiabatic processes; ...

The Solar and Space Weather Reseach Group in Lund

... solar wind and warnings based on SOHO (LASCO and MDI) data. ...

Test #1 Study Questions

... 32. Know how to calculate crustal thickness. 33. How does continental crust accumulate on Earth? 34. Are continents rifting apart now? 35. Discuss the process of hot-spot volcanism and how that relates to the construction of Olympus Mons. 36. What is Bode’s law? 37. Is there any room for more terres ...

1/ph/lb exploring the solar system

... the basic science and techniques of space flight, considering orbital mechanics and the technology behind space exploration. This is a rapidly moving area, and any new discoveries or events during the course are discussed. ...

Course Outline

... •  75º N in June gets more sun than the Equator! ...

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Energetic neutral atom

Energetic neutral atom (ENA) imaging, often described as ""seeing with atoms"", is a technology used to create global images of otherwise invisible phenomena in the magnetospheres of planets and throughout the heliosphere, even to its outer boundary.This constitutes the far-flung edge of the solar system.The solar wind consists of ripped-apart atoms (called plasma) flying out of the Sun. This is mostly hydrogen, that is, bare electrons and protons, with a little bit of other kinds of nuclei, mostly helium. The space between solar systems is similar, but they come from other stars in our galaxy. These charged particles can be redirected by magnetic fields; for instance, Earth's magnetic field shields us from these particles. But, every so often, a few of them steal electrons from neutral atoms they run into. At that point, they become neutral, although they're still moving very fast, and they travel in an exact straight line. These are called Energetic Neutral Atoms. ENA images are constructed from the detection of these energetic neutral atoms.Earth's magnetosphere preserves Earth's atmosphere and protects us from cell-damaging radiation. This region of ""space weather"" is the site of geomagnetic storms that disrupt communications systems and pose radiation hazards to humans traveling at high polar altitudes or in orbiting spacecraft. A deeper understanding of this region is vitally important. Geomagnetic weather systems have been late to benefit from the satellite imagery taken for granted in weather forecasting, and space physics because their origins in magnetospheric plasmas present the added problem of invisibility.The heliosphere protects the entire Solar System from the majority of cosmic rays but is so remote that only an imaging technique such as ENA imaging will reveal its properties. The heliosphere's structure is due to the invisible interaction between the solar wind and cold gas from the local interstellar medium.The creation of ENAs by space plasmas was predicted but their discovery was both deliberate and serendipitous. While some early efforts were made at detection, their signatures also explained inconsistent findings by ion detectors in regions of expected low ion populations. Ion detectors were co-opted for further ENA detection experiments in other low-ion regions. However, the development of dedicated ENA detectors entailed overcoming significant obstacles in both skepticism and technology.Although ENAs were observed in space from the 1960s through 1980s, the first dedicated ENA camera was not flown until 1995 on the Swedish Astrid-1 satellite, to study Earth's magnetosphere.Today, dedicated ENA instruments have provided detailed magnetospheric images from Venus, Mars, Jupiter, and Saturn. Cassini's ENA images of Saturn revealed a unique magnetosphere with complex interactions that have yet to be fully explained. The IMAGE mission's three dedicated ENA cameras observed Earth's magnetosphere from 2000–2005 while the TWINS Mission, launched in 2008, provides stereo ENA imaging of Earth's magnetosphere using simultaneous imaging from two satellites.The first ever images of the heliospheric boundary, published in October 2009, were made by the ENA instruments aboard the IBEX and Cassini spacecraft. These images are very exciting because they challenge existing theories about the region.

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Energetic neutral atom