ISRO Says Mangalyaan Threw Similar Results About Suns Corona as NASAs Parker Probe
ISRO scientists used the conjunction event of May-June 2015, when the Sun's activity was quite low. They published their findings in the Monthly Notices journal of the Royal Astronomical Society.
Separately, in a statement, they said that studying the corona is vital to understand why the solar atmosphere behaves the way it does. It is also a key factor in understanding solar wind, which originates in the corona. Ads by The solar wind passes through interplanetary spaces and shapes the magnetosphere of planets. They can even affect the near-Earth space.
The scientists said they have observed that the solar wind transitions from slower speeds to higher velocities in a region that's 10 to 15 times the solar radii (1 solar radii = 696,340km) from the Sun's centre. Interestingly, they said, their findings are similar to the observations by NASA's recent and much costlier Parker probe.
ISRO scientists used the conjunction event of May-June 2015, when the Sun's activity was quite low. They published their findings in the Monthly Notices journal of the Royal Astronomical Society. Separately, in a statement, they said that studying the corona is vital to understand why the solar atmosphere behaves the way it does. It is also a key factor in understanding solar wind, which originates in the corona. Ads by The solar wind passes through interplanetary spaces and shapes the magnetosphere of planets. They can even affect the near-Earth space. The scientists said they have observed that the solar wind transitions from slower speeds to higher velocities in a region that's 10 to 15 times the solar radii (1 solar radii = 696,340km) from the Sun's centre. Interestingly, they said, their findings are similar to the observations by NASA's recent and much costlier Parker probe.
ISRO scientists used the conjunction event of May-June 2015, when the Sun's activity was quite low. They published their findings in the Monthly Notices journal of the Royal Astronomical Society. Separately, in a statement, they said that studying the corona is vital to understand why the solar atmosphere behaves the way it does. It is also a key factor in understanding solar wind, which originates in the corona. Ads by The solar wind passes through interplanetary spaces and shapes the magnetosphere of planets. They can even affect the near-Earth space. The scientists said they have observed that the solar wind transitions from slower speeds to higher velocities in a region that's 10 to 15 times the solar radii (1 solar radii = 696,340km) from the Sun's centre. Interestingly, they said, their findings are similar to the observations by NASA's recent and much costlier Parker probe.
ISRO scientists used the conjunction event of May-June 2015, when the Sun's activity was quite low. They published their findings in the Monthly Notices journal of the Royal Astronomical Society. Separately, in a statement, they said that studying the corona is vital to understand why the solar atmosphere behaves the way it does. It is also a key factor in understanding solar wind, which originates in the corona. Ads by The solar wind passes through interplanetary spaces and shapes the magnetosphere of planets. They can even affect the near-Earth space. The scientists said they have observed that the solar wind transitions from slower speeds to higher velocities in a region that's 10 to 15 times the solar radii (1 solar radii = 696,340km) from the Sun's centre. Interestingly, they said, their findings are similar to the observations by NASA's recent and much costlier Parker probe.
ISRO scientists used the conjunction event of May-June 2015, when the Sun's activity was quite low. They published their findings in the Monthly Notices journal of the Royal Astronomical Society. Separately, in a statement, they said that studying the corona is vital to understand why the solar atmosphere behaves the way it does. It is also a key factor in understanding solar wind, which originates in the corona. Ads by The solar wind passes through interplanetary spaces and shapes the magnetosphere of planets. They can even affect the near-Earth space. The scientists said they have observed that the solar wind transitions from slower speeds to higher velocities in a region that's 10 to 15 times the solar radii (1 solar radii = 696,340km) from the Sun's centre. Interestingly, they said, their findings are similar to the observations by NASA's recent and much costlier Parker probe.
ISRO scientists used the conjunction event of May-June 2015, when the Sun's activity was quite low. They published their findings in the Monthly Notices journal of the Royal Astronomical Society. Separately, in a statement, they said that studying the corona is vital to understand why the solar atmosphere behaves the way it does. It is also a key factor in understanding solar wind, which originates in the corona. Ads by The solar wind passes through interplanetary spaces and shapes the magnetosphere of planets. They can even affect the near-Earth space. The scientists said they have observed that the solar wind transitions from slower speeds to higher velocities in a region that's 10 to 15 times the solar radii (1 solar radii = 696,340km) from the Sun's centre. Interestingly, they said, their findings are similar to the observations by NASA's recent and much costlier Parker probe.
ISRO scientists used the conjunction event of May-June 2015, when the Sun's activity was quite low. They published their findings in the Monthly Notices journal of the Royal Astronomical Society. Separately, in a statement, they said that studying the corona is vital to understand why the solar atmosphere behaves the way it does. It is also a key factor in understanding solar wind, which originates in the corona. Ads by The solar wind passes through interplanetary spaces and shapes the magnetosphere of planets. They can even affect the near-Earth space. The scientists said they have observed that the solar wind transitions from slower speeds to higher velocities in a region that's 10 to 15 times the solar radii (1 solar radii = 696,340km) from the Sun's centre. Interestingly, they said, their findings are similar to the observations by NASA's recent and much costlier Parker probe.
ISRO scientists used the conjunction event of May-June 2015, when the Sun's activity was quite low. They published their findings in the Monthly Notices journal of the Royal Astronomical Society. Separately, in a statement, they said that studying the corona is vital to understand why the solar atmosphere behaves the way it does. It is also a key factor in understanding solar wind, which originates in the corona. Ads by The solar wind passes through interplanetary spaces and shapes the magnetosphere of planets. They can even affect the near-Earth space. The scientists said they have observed that the solar wind transitions from slower speeds to higher velocities in a region that's 10 to 15 times the solar radii (1 solar radii = 696,340km) from the Sun's centre. Interestingly, they said, their findings are similar to the observations by NASA's recent and much costlier Parker probe.
ISRO scientists used the conjunction event of May-June 2015, when the Sun's activity was quite low. They published their findings in the Monthly Notices journal of the Royal Astronomical Society. Separately, in a statement, they said that studying the corona is vital to understand why the solar atmosphere behaves the way it does. It is also a key factor in understanding solar wind, which originates in the corona. Ads by The solar wind passes through interplanetary spaces and shapes the magnetosphere of planets. They can even affect the near-Earth space. The scientists said they have observed that the solar wind transitions from slower speeds to higher velocities in a region that's 10 to 15 times the solar radii (1 solar radii = 696,340km) from the Sun's centre. Interestingly, they said, their findings are similar to the observations by NASA's recent and much costlier Parker probe.