An X1.9 class solar flare flashes on the left edge of the Sun on January 9, 2023. An X1.9 class solar flare flashes on the left edge of the Sun on January 9, 2023. It is classified as an X-class flare, which is the most effective class of solar flares. An X1.9 class solar flare flashes on the left edge of the Sun on January 9, 2023. An X1.9 class solar flare flashes on the left of the Sun on January 9, 2023.
An X1.9 class solar flare flashes on the left of the Sun on January 9, 2023. This image was recorded by NASAs Solar Dynamics Observatory at 1:49 EST and shows light in the 131 angstrom wavelength. Credit: NASA/SDO
An X1.9 class solar flare flashes on the left of the Sun on January 9, 2023. This image was captured by NASAs Solar Dynamics Observatory at 1:49 EST and shows light in the 171 angstrom wavelength. Credit: NASA/SDO
An X1.9 class solar flare flashes on the left of the Sun on January 9, 2023. This image was captured by NASAs Solar Dynamics Observatory at 1:55 EST and shows light in the 131 angstrom wavelength. Credit: NASA/SDO
An X1.9 class solar flare flashes on the left edge of the Sun on January 9, 2023. This image was recorded by NASAs Solar Dynamics Observatory and shows a blend of light from the 171 and 131 angstrom wavelengths. Credit: NASA/GSFC/SDO
An X1.9 class solar flare flashes on the left edge of the Sun on January 9, 2023. This image was recorded by NASAs Solar Dynamics Observatory and reveals a blend of light from the 171, 131, and 304 angstrom wavelengths. Credit: NASA/GSFC/SDO
The Sun discharged a strong solar flare, peaking at 1:50 p.m. EST on January 9, 2023. Imagery of the occasion was recorded by NASAs Solar Dynamics Observatory, which constantly watches the Sun.
Solar flares are intense explosions of energy that can interfere with radio communications, damage power grids, and impact navigation signals. They likewise posture a danger to spacecraft and astronauts.
An X1.9 class solar flare flashes on the left edge of the Sun on January 9, 2023. This video was captured by NASAs Solar Dynamics Observatory and shows a mix of light from the 171, 131 and 304 angstrom wavelengths. Credit: NASA/GSFC/SDO
This flare is classified as an X1.9 flare. It is classified as an X-class flare, which is the most powerful class of solar flares. The number following the “X” shows the relative strength of the flare, with larger numbers showing stronger flares. An X1.9 flare is therefore a reasonably strong flare, however less extreme than an X2.0 or greater. These flares can trigger disturbances to radio interactions and power grids in the world, and can likewise be possibly dangerous for spacecraft and astronauts.
An X1.9 class solar flare flashes on the left of the Sun on January 9, 2023. This image was caught by NASAs Solar Dynamics Observatory at 1:57 EST and shows light in the 193 angstrom wavelength. Credit: NASA/SDO
An X1.9 class solar flare flashes on the left of the Sun on January 9, 2023. This image was recorded by NASAs Solar Dynamics Observatory at 1:49 EST and reveals light in the 304 angstrom wavelength. Credit: NASA/SDO
For more information on how such area weather condition may affect Earth, please go to NOAAs Space Weather Prediction Center, the U.S. governments main source for area weather report, watches, warnings, and informs. NASA works as a research study arm of the countrys space weather effort. NASA observes the Sun and our space environment continuously with a fleet of spacecraft that study everything from the Suns activity to the solar atmosphere, and to the particles and magnetic fields in the area surrounding Earth.
The Solar Dynamics Observatory (SDO) is a NASA objective that was introduced in 2010 to study the sun and its results in the world. The spacecraft is equipped with a suite of instruments that enable it to observe the suns magnetic field, track the motion of product on the suns surface, and determine the suns output of numerous forms of radiation. The information gathered by the SDO is utilized to enhance our understanding of the suns inner operations, along with its impact on Earths environment and environment. The SDO has actually assisted to enhance our ability to predict solar flares and other space weather events, which can have substantial results on satellite and ground-based technology.