The points can be used as ‘parking spots’ for spacecraft in space to remain in a fixed position with minimal fuel consumption.
They have been named after Italian-French mathematician Joseph-Louis Lagrange (1736-1813), who was the first one to find the positions. So, between the Earth and the Sun, a satellite can occupy any of five Lagrangian points. “Of the five Lagrange points, three are unstable and two are stable. The unstable Lagrange points – labelled L1, L2, and L3 – lie along the line connecting the two large masses. The stable Lagrange points – labelled L4 and L5 – form the apex of two equilateral triangles. The L4 and L5 are also called Trojan points and celestial bodies like asteroids are found here.
#upsc #news #headline #india #first #sun #observatory #launched #space #technology #ISRO #AdityaL1 #firstspace #mission #SatishDhawan #spacecentre #Sriharikota #softland #spacecraft #nearmoon #southpole #polar #satellite #launch #PSLV #workhouse #rocket #chandrayaan #Mangalyaan #boosters #synchronous #orbit #lowerearth #haloorbit #chromosphere #corona #plasma #spectrometer #trojan #point #asteroids
They have been named after Italian-French mathematician Joseph-Louis Lagrange (1736-1813), who was the first one to find the positions. So, between the Earth and the Sun, a satellite can occupy any of five Lagrangian points. “Of the five Lagrange points, three are unstable and two are stable. The unstable Lagrange points – labelled L1, L2, and L3 – lie along the line connecting the two large masses. The stable Lagrange points – labelled L4 and L5 – form the apex of two equilateral triangles. The L4 and L5 are also called Trojan points and celestial bodies like asteroids are found here.
#upsc #news #headline #india #first #sun #observatory #launched #space #technology #ISRO #AdityaL1 #firstspace #mission #SatishDhawan #spacecentre #Sriharikota #softland #spacecraft #nearmoon #southpole #polar #satellite #launch #PSLV #workhouse #rocket #chandrayaan #Mangalyaan #boosters #synchronous #orbit #lowerearth #haloorbit #chromosphere #corona #plasma #spectrometer #trojan #point #asteroids
Today's Headlines - 05 September 2023
A sunrace of significant global missions
GS Paper - 3 (Space Technology)
In the wake of the Indian Space Research Organisation's successful launch of its inaugural solar mission, Aditya-L1,, let's embark on a journey through key missions from space agencies worldwide, all dedicated to unravelling the enigmatic secrets of the Sun.
A Sunrace
USA
US: National Aeronautics and Space Administration (NASA), the US space agency, launched the Parker Solar Probe in August 2018. In December 2021, Parker flew through the Sun's upper atmosphere, the corona, and sampled particles and magnetic fields there. This was the first time ever that a spacecraft touched the Sun, according to NASA.
In February 2020, NASA joined hands with the European Space Agency (ESA) and launched The Solar Orbiter to collect data to find out how the Sun created and controlled the constantly changing space environment throughout the solar system.
Other active solar missions by NASA are Advanced Composition Explorer launched in August, 1997; Solar Terrestrial Relations Observatory in October, 2006; Solar Dynamics Observatory in February, 2010; and Interface Region Imaging Spectrograph launched in June, 2013.
Also, in December, 1995, NASA, ESA and JAXA (Japan Aerospace Exploration Agency) jointly launched the Solar and Heliospheric Observatory (SOHO).
Japan
JAXA, Japan's space agency, launched its first solar observation satellite, Hinotori (ASTRO-A), in 1981. The objective was to study solar flares using hard X-rays, according to JAXA. JAXA's other solar exploratory missions are Yohkoh (SOLAR-A) launched in 1991; SOHO (along with NASA and ESA) in 1995; and Transient Region and Coronal Explorer (TRACE), along with NASA, in 1998.
In 2006, Hinode (SOLAR-B) was launched, which was the successor to Yohkoh (SOLAR-A), the orbiting solar observatory. Japan launched it in collaboration with the US and the UK. The objective of Hinode, an observatory satellite, is to study the impact of the Sun on the Earth.
Yohkoh's objective was to observe solar flares and the solar corona. It was the first satellite to track almost an entire 11-year solar activity cycle.
Europe
In October, 1990, the ESA launched Ulysses to study the environment of space above and below the poles of the Sun, giving scientists information about the variable effect the Sun has on the space surrounding it. Other than solar missions launched in collaboration with NASA and the JAXA, the ESA launched Proba-2 in October, 2001.
Proba-2 is the second of the Proba series, building on nearly eight years of successful Proba-1 experience, even as Proba-1 was not a solar exploratory mission. On-board Proba-2 were four experiments, two of them were solar observation experiments.
Proba stands for Project for On-Board Autonomy. Upcoming solar missions of the ESA include Proba-3, scheduled for 2024 and Smile, scheduled for 2025.
China
The Advanced Space-based Solar Observatory (ASO-S) was successfully launched by the National Space Science Center, Chinese Academy of Sciences (CAS), in October, 2022. The ASO-S mission is designed to reveal connections among the solar magnetic field, solar flares, and coronal mass ejections (CMEs).
Solar flares and CMEs are eruptive solar phenomena, thought to be driven by changes in the Sun's magnetic field.
#upsc #news #headline #sunrace #significant #global #missions #spacetechnology #indian #space #organisation #AdityaL1 #NASA #Solar #magnetic #fields #spacecraft #firsttime #orbiter #ESA #enviroments #spectrograph #JAXA #SOHO #japan #USA #EUROPE #CHINA #ASO #CMEs #autonomy #mission
A sunrace of significant global missions
GS Paper - 3 (Space Technology)
In the wake of the Indian Space Research Organisation's successful launch of its inaugural solar mission, Aditya-L1,, let's embark on a journey through key missions from space agencies worldwide, all dedicated to unravelling the enigmatic secrets of the Sun.
A Sunrace
USA
US: National Aeronautics and Space Administration (NASA), the US space agency, launched the Parker Solar Probe in August 2018. In December 2021, Parker flew through the Sun's upper atmosphere, the corona, and sampled particles and magnetic fields there. This was the first time ever that a spacecraft touched the Sun, according to NASA.
In February 2020, NASA joined hands with the European Space Agency (ESA) and launched The Solar Orbiter to collect data to find out how the Sun created and controlled the constantly changing space environment throughout the solar system.
Other active solar missions by NASA are Advanced Composition Explorer launched in August, 1997; Solar Terrestrial Relations Observatory in October, 2006; Solar Dynamics Observatory in February, 2010; and Interface Region Imaging Spectrograph launched in June, 2013.
Also, in December, 1995, NASA, ESA and JAXA (Japan Aerospace Exploration Agency) jointly launched the Solar and Heliospheric Observatory (SOHO).
Japan
JAXA, Japan's space agency, launched its first solar observation satellite, Hinotori (ASTRO-A), in 1981. The objective was to study solar flares using hard X-rays, according to JAXA. JAXA's other solar exploratory missions are Yohkoh (SOLAR-A) launched in 1991; SOHO (along with NASA and ESA) in 1995; and Transient Region and Coronal Explorer (TRACE), along with NASA, in 1998.
In 2006, Hinode (SOLAR-B) was launched, which was the successor to Yohkoh (SOLAR-A), the orbiting solar observatory. Japan launched it in collaboration with the US and the UK. The objective of Hinode, an observatory satellite, is to study the impact of the Sun on the Earth.
Yohkoh's objective was to observe solar flares and the solar corona. It was the first satellite to track almost an entire 11-year solar activity cycle.
Europe
In October, 1990, the ESA launched Ulysses to study the environment of space above and below the poles of the Sun, giving scientists information about the variable effect the Sun has on the space surrounding it. Other than solar missions launched in collaboration with NASA and the JAXA, the ESA launched Proba-2 in October, 2001.
Proba-2 is the second of the Proba series, building on nearly eight years of successful Proba-1 experience, even as Proba-1 was not a solar exploratory mission. On-board Proba-2 were four experiments, two of them were solar observation experiments.
Proba stands for Project for On-Board Autonomy. Upcoming solar missions of the ESA include Proba-3, scheduled for 2024 and Smile, scheduled for 2025.
China
The Advanced Space-based Solar Observatory (ASO-S) was successfully launched by the National Space Science Center, Chinese Academy of Sciences (CAS), in October, 2022. The ASO-S mission is designed to reveal connections among the solar magnetic field, solar flares, and coronal mass ejections (CMEs).
Solar flares and CMEs are eruptive solar phenomena, thought to be driven by changes in the Sun's magnetic field.
#upsc #news #headline #sunrace #significant #global #missions #spacetechnology #indian #space #organisation #AdityaL1 #NASA #Solar #magnetic #fields #spacecraft #firsttime #orbiter #ESA #enviroments #spectrograph #JAXA #SOHO #japan #USA #EUROPE #CHINA #ASO #CMEs #autonomy #mission