SpotMini concept is a likely candidate for future planetary exploration missions. I predict Mars Rover 2030 mission will borrow a lot from the SpotMini design.
~ dj
Video credit: Boston Dynamics
Archive for February, 2018
ESA dixit:
“ESA’s XMM-Newton has spotted surprising changes in the powerful streams of gas from two massive stars, suggesting that colliding stellar winds don’t behave as expected. Massive stars – several times larger than our Sun – lead turbulent lives, burning their nuclear fuel rapidly and pouring large amounts of material into their surroundings throughout their short but sparkling lives.
These fierce stellar winds can carry the equivalent of Earth’s mass in a month and travel at millions of kilometres per hour, so when two such winds collide they unleash enormous amounts of energy. The cosmic clash heats the gas to millions of degrees, making it shine brightly in X-rays.
Normally, colliding winds change little because neither do the stars nor their orbits. However, some massive stars behave dramatically. This is the case with HD 5980, a pairing of two huge stars each 60 times the mass of our Sun and only about 100 million kilometres apart – closer than we are to our star. One had a major outburst in 1994, reminiscent of the eruption that turned Eta Carinae into the second brightest star in the sky for about 18 years in the 19th century. While it is now too late to study Eta Carinae’s historic eruption, astronomers have been observing HD 5980 with X-ray telescopes to study the hot gas.”
Video credit: ESA
NASA dixit:
“Astronomers using NASA’s Hubble Space Telescope have conducted the first spectroscopic survey of the Earth-sized planets (d, e, f, and g) within the habitable zone around the nearby star TRAPPIST-1. This study is a follow-up to Hubble observations made in May 2016 of the atmospheres of the inner TRAPPIST-1 planets b and c. Hubble reveals that at least three of the exoplanets (d, e, and f) do not seem to contain puffy, hydrogen-rich atmospheres similar to gaseous planets such as Neptune.
Additional observations are needed to determine the hydrogen content of the fourth planet’s (g) atmosphere. Hydrogen is a greenhouse gas, which smothers a planet orbiting close to its star, making it hot and inhospitable to life. The results, instead, favor more compact atmospheres like those of Earth, Venus, and Mars.
By not detecting the presence of a large abundance of hydrogen in the planets’ atmospheres, Hubble is helping to pave the way for NASA’s James Webb Space Telescope, scheduled to launch in 2019. Webb will probe deeper into the planetary atmospheres, searching for heavier gases such as carbon dioxide, methane, water, and oxygen. The presence of such elements could offer hints of whether life could be present, or if the planet were habitable.
“Hubble is doing the preliminary reconnaissance work so that astronomers using Webb know where to start,” said Nikole Lewis of the Space Telescope Science Institute (STScI) in Baltimore, Maryland, co-leader of the Hubble study. “Eliminating one possible scenario for the makeup of these atmospheres allows the Webb telescope astronomers to plan their observation programs to look for other possible scenarios for the composition of these atmospheres.”
The planets orbit a red dwarf star that is much smaller and cooler than our Sun. The four alien worlds are members of a seven-planet system around TRAPPIST-1. All seven of the planetary orbits are closer to their host star than Mercury is to our Sun. Despite the planets’ close proximity to TRAPPIST-1, the star is so much cooler than our Sun that liquid water could exist on the planets’ surfaces.”
Video credit: NASA’s Goddard Space Flight Center
NASA dixit:
“The Transiting Exoplanet Survey Satellite (TESS) is the next step in the search for planets outside of our solar system, including those that could support life. The mission will find exoplanets that periodically block part of the light from their host stars, events called transits. TESS will survey 200,000 of the brightest stars near the sun to search for transiting exoplanets. The mission is scheduled to launch in 2018.”
Music credit: “Prototype” and “Trial” both from Killer Tracks
Video credit: NASA’s Goddard Space Flight Center
NASA dixit:
“Creating a major scientific visualization takes considerable time and expertise. A team of scientists and data visualizers work together to building an artful depiction of hard data – whether it be an animation of sea surface temperature, the paths of hurricanes, or life on Planet Earth. Get a closer look at how the “Living Planet” visualization was made from the perspective of its principle scientists, Gene Feldman and Compton Tucker and SVS data visualizer, Alex Kekesi. “
Video credit: NASA’s Goddard Space Flight Center/LK Ward
NASA dixit:
“Explorer 1 showed that the United States was capable of not only launching a satellite but also carrying out scientific research in space. For four months after launch, instruments aboard Explorer 1 measured and sent back data on temperature, micrometeorites and cosmic rays, or high-energy radiation. University of Iowa physicist James Van Allen’s instrument for measuring cosmic rays, a Geiger counter, helped make the first major scientific find of the Space Age: a belt of radiation around Earth that would later be named in Van Allen’s honor.
“Explorer 1 was a beginning. It was the beginning of going beyond our sphere of life out into space,” said Thomas Zurbuchen, NASA associate administrator for science. “At first, quite frankly, space looked like a pretty boring place. But the instrument that Van Allen and his team built showed that space is beautiful.”
On the heels of Explorer 1’s success, the nation entered a new era of discovery on Earth and beyond that continues to this day.
In 1960, NASA launched the world’s first weather satellite, the Television and Infrared Observation Satellite (TIROS). The United States now has an extensive fleet of weather satellites operated by the National Oceanographic and Atmospheric Administration (NOAA) that monitors storms and other natural disasters and provides critical data that helps save lives and protect critical infrastructure.
In 1972, NASA designed and launched Earth Resources Technology Satellite 1, later renamed Landsat 1, as the first spacecraft designed to monitor the planet’s land masses. Subsequent Landsat satellites, now operated by the U.S. Geological Survey, have produced over four decades of continuous data about our changing planet that have been applied to such uses as crop health monitoring, freshwater and forest management and infectious disease tracking.
NASA has a long history of using the vantage point of space to advance our understanding of our complex home planet. The Nimbus-1 satellite launched in 1964 was the first of seven such spacecraft that revolutionized Earth science. Nimbus satellites measured snow cover at the North and South poles, estimated the size of volcanic eruptions and the distribution of phytoplankton in the oceans and confirmed the existence of the annual ozone hole in Antarctica. NASA’s current fleet of more than a dozen Earth-observing missions continues to provide new insights about Earth’s interconnected systems.
Looking beyond Earth’s horizon, in 1962 NASA launched Mariner 2, the first satellite to encounter another planet as the spacecraft flew within 21,000 miles of Venus and sent back information on not only the Venusian atmosphere but also the solar wind. The space agency has since dispatched satellites to explore every planet in the solar system, in addition to the Sun and a number of moons, comets and asteroids.
NASA has also long set its gaze out into the cosmos. From 1966 to 1972, the Orbiting Astronomical Observatory series of satellites provided the first high-quality ultraviolet observations of stars at the edge of the Milky Way. The space agency has continued its groundbreaking research into the mysteries of the universe with the 2004 launch of the Swift Gamma-ray Burst Explorer, which has imaged the most luminous known galaxies in addition to detecting millions of black holes and dwarf stars.
America’s 60 years of space science has yielded profound insights and practical benefits for the nation and the world. And NASA continues to blaze new trails of discovery.”
Video credit: NASA’s Goddard Space Flight Center/LK Ward
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