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☀️ Solar Weather, October 9, 2024

😉 X-Class Flare with Earth-Directed Plasma Ejection

‼️ Today, reports emerged of a new X-class solar flare. The radiation began to increase at 01:25 UT, reaching its peak at 01:58. There are several key points to consider. First, a significant plasma ejection was recorded, and even if models suggest otherwise, its configuration rules out the possibility of missing Earth. Second, the flare’s location is noteworthy. The explosion occurred in a large sunspot in the northern part of the Sun, which has been notable for its size over the past 10 days but only just became active.

⚠️ Important Warning: This event could lead to communication disruptions, and the appearance of auroras at lower latitudes is expected. People sensitive to geomagnetic activity should take precautions, as heightened magnetic disturbances may follow.

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☀️|🌌 Update on Comet Tsuchinshan-Atlas

🌌Recently, updated information about the movement of Comet Tsuchinshan-Atlas has appeared on social media. Its passage seems to coincide with a powerful coronal mass ejection (CME) in the plane of the sky; however, in three-dimensional space, it may look different. Scientists continue to closely monitor these phenomena.

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☀️|❗️ A strong solar storm hit Earth.

😉Another solar flare has intensified the geomagnetic storm. According to meteorological data, it reaches a level of six and is one of the longest-lasting storms of the year.

😊 During this period, many people may experience headaches, weakness, fluctuations in blood pressure, and mood swings.
November 10, 2024

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☀️|‼️ Solar Eruptions, November 11–12

😉 Over the past 24 hours, a series of powerful eruptions have been observed on the Sun. In the southern hemisphere, a large solar filament lifted off, followed by a prominence eruption on the northeastern limb. Additionally, two more filament eruptions were recorded in the northwestern and northeastern quadrants.

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☀️ Powerful Solar Eruption on the Sun's Western Limb‼️

😉 On November 21, 2024, around 18:00 UTC, a powerful solar eruption occurred behind the Sun's western limb, triggering an extremely energetic coronal mass ejection (CME). The eruption was accompanied by a shock wave that accelerated protons to energies exceeding 500 MeV.

Experts report that this event has caused the most energetic solar radiation storm since 2005, or possibly since the famous Halloween storms of 2003. The storm's hard radiation spectrum highlights the magnitude of the eruption.

🟡The likely source of this event is one of the Sun's active regions—either Region 3889 or Region 3897—located on the far side of the Sun. Despite its scale, the CME does not appear to have an Earth-directed component, as the coronal wave remained localized near the western limb.

😊 Unfortunately, the Parker Solar Probe and Solar Orbiter were not in favorable positions to observe the event remotely or in situ, limiting detailed analysis of the phenomenon.

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☀️ November 27, 2024: The Sun Demonstrates Significant Activity

😉 On November 27, 2024, the Sun exhibited notable activity that captured the attention of scientists. Around 18:45 UTC, a solar filament eruption occurred in the southeastern region of the solar disk. This event was accompanied by a coronal mass ejection (CME) directed predominantly southward, minimizing its potential impact on Earth, though a slight glancing blow remains possible.

😊Later, around 20:00 UTC, a farside CME event was observed on the Sun's southeast limb. Its influence is expected to remain limited, with no significant effects on Earth’s magnetosphere.

🌈 Throughout November, solar spot numbers rose sharply, surpassing 200 once again. The monthly average reached approximately 150, significantly higher than anticipated. These findings suggest that the peak of the current Solar Cycle 25 will be stronger and occur later than previously estimated. Experts confirm there is no evidence of a "Grand Solar Minimum" at this time.

‼️ This heightened solar activity highlights the dynamic nature of the ongoing solar cycle. Monitoring continues as these solar events influence space weather, satellite operations, radio communications, and navigation systems on Earth.

🔗Source: link

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☀️ Intense Solar Activity: A Magnetic Storm Expected on New Year's Eve‼️

😉 On December 29, 2024, a powerful X-class solar flare occurred, part of a series of strong M-class flares observed in the past two days. This activity has led to predictions of a major geomagnetic storm, expected to reach Earth during the night from December 31 to January 1.

⚡️Today, December 30, another X2 flare erupted from the same sunspot region, likely triggering another coronal mass ejection towards Earth. This flare caused an R3-level radio blackout storm in Australia, signaling intense solar activity.

🌈 The storm is expected to reach a G3 level or higher, which could lead to phenomena such as auroras visible in mid-latitudes under clear skies. At the same time, such a storm may affect people who are sensitive to weather changes, causing headaches, drowsiness, and irritability.

🌍 Experts continue to monitor the situation and warn that, in addition to visual effects, the magnetic storm could impact electrical grids, satellite systems, and navigation devices.

🔗 Source: meteoagent.com
🔗 Source: Space Weather Live

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📈 X-Class Solar Flares: Increasing Activity

😉 On January 3, 2025, two powerful X-class solar flares were recorded from active region AR13947. These events highlight the growing intensity of Solar Cycle 25 (SC25), which has already significantly outpaced Solar Cycle 24 (SC24).

☀️ The first flare, an X1.2 event, peaked at 11:40 UTC. It occurred in the eastern part of the solar disk, where its impact on Earth is minimal due to its remote location. At the time of the event, information about the associated coronal mass ejection (CME) was still limited.

😊 Less than 12 hours later, at 22:41 UTC, the same active region produced another X-class flare, rated X1.1. This flare was accompanied by a CME that, according to preliminary data, is more Earth-directed than the CME associated with the earlier event. Experts are closely monitoring to assess potential impacts on geomagnetic activity.

‼️ Notably, Solar Cycle 25 has already seen 78 X-class flares — a 280% increase compared to the same stage of Solar Cycle 24. Scientists predict a high likelihood of further flares, as repeated activity in a single solar region is a key indicator of future events.

🌍 Health Advisory: Solar flares and related geomagnetic disturbances can exacerbate symptoms such as headaches, fatigue, and irritability. It is advised to minimize stress and monitor your well-being.

These events may also impact satellite systems, radio communications, and create opportunities for auroras at high latitudes.

🔗 Source: spaceweatherlive.com

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📈 The Sun remains active: third X-class flare in recent days

☀️ On January 4, 2025, another powerful X-class solar flare was recorded, marking the third such event in recent days. This time, active region AR3947 produced an X1.8 flare that peaked at 12:48 UTC. The associated coronal mass ejection (CME) was directed eastward, similar to the CMEs from the previous two X-class flares.

😊 Region AR3939 also contributed to the solar activity, generating two long-duration C-class flares. The first, rated C9.3, occurred at 15:09 UTC, followed by a C7.6 flare at 19:15 UTC. Both events produced CMEs directed westward.

😉 These solar activities have already triggered a minor radiation storm, which may intensify in the coming days. Additionally, the CMEs associated with these events are expected to cause geomagnetic storms on Earth, potentially affecting radio communications, satellite operations, and leading to auroras visible at higher latitudes.

‼️ The Sun continues to exhibit increasing activity, consistent with the current phase of its 25th solar cycle.

🔗 Source: spaceweatherlive.com

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☀️ Solar Flare: Long-Duration M1.1 Emission

😉 On January 7 at 23:05 UTC, an M1.1-class solar flare was detected in active region AR3939, located just behind the Sun's southwestern limb.

😊This flare was long-lasting, making it notable for astronomers. However, the good news is that the associated coronal mass ejection (CME) is not Earth-directed.

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😉 Solar Flares on January 9, 2025: Activity in AR3947

😊 On January 9, 2025, the Sun exhibited increased activity associated with active region AR3947.

☀️ Early in the morning, at 01:09 UTC, a minor solar flare of class M1.1 was recorded. Later, at 10:58 UTC, a long-duration C3.9-class flare occurred near the Sun’s central disk. This event was accompanied by dimming and the formation of bright loops in the Sun's corona, indicating significant energy releases into space.

🌈 Experts anticipate possible auroras at mid-latitudes. However, data from the GOES-West satellite magnetometer has not yet confirmed significant changes in geomagnetic conditions. The effects of the solar eruption may become noticeable in the coming hours.

‼️ Such solar activity highlights the importance of monitoring space weather to predict its impact on Earth, including satellite communications and atmospheric phenomena.

🔗 Source: spaceweatherlive.com

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☀️ X-Class Solar Flare Returns After More Than 50 Days

😉More than 50 days have passed, and we have once again witnessed an X-class solar flare. ⭐️ Sunspot region 3947 produced an X1.8 flare on January 4, followed by silence... But on February 23, the departing sunspot region 4001 generated an X2.0 flare. The activity didn’t stop there—today, the Sun has already produced several M-class flares. 🔥

Stay tuned for more updates on solar activity! 🚀✨

🔗Source: spaceweatherlive.com

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😉 Solar Filament Eruption on February 26, 2025

☀️ On February 26, 2025, the Sun experienced a filament eruption that led to a coronal mass ejection (CME). This event was accompanied by dimming and the formation of a post-eruption arcade, with one of the CMEs directed towards Earth.

‼️ Experts estimate that the CME is heading southeast and is expected to reach Earth around March 2, 2025.

🌈 Such events can cause geomagnetic storms, potentially affecting satellite communications and triggering auroras in high-latitude regions.

Astronomers continue to monitor the situation to assess potential impacts on our planet.

🔗 Source: Edward.Vijayakumar - X

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☀️POWERFUL ERUPTION ON THE FAR SIDE OF THE SUN – CORONAL MASS EJECTION

💥 On March 1 at 16:45 UTC, a powerful eruption was observed on the far side of the Sun, accompanied by a bright coronal mass ejection (CME). This event was preceded by a smaller eruption linked to a filament near the Sun’s western limb.

😉 Although this CME is not directed toward Earth, such events highlight the Sun’s high activity. Solar eruptions and coronal mass ejections can influence space weather, causing geomagnetic disturbances that may affect satellite systems and radio communications.

⚠️ Astronomers continue to closely monitor solar activity to assess potential impacts from future eruptions.

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☀️ Solar Activity on March 7 and Forecast for March 8–10


😉 On March 7, several significant coronal mass ejections (CMEs) were observed on the Sun. One particularly impressive eruption occurred in the evening, along with an M1.6 flare from Active Region AR14016, where plasma movement was detected, potentially leading to a CME.

😊 Additionally, an impressive filament eruption was recorded in the southeastern quadrant of the Sun. However, preliminary data suggests that it does not have an Earth-directed component.

🔭 Space Weather Forecast for March 8–10
😀 March 8–9: Increased geomagnetic activity is expected as a high-speed solar wind stream (HSS) from a coronal hole reaches Earth. Active conditions and G1 (minor) geomagnetic storms are likely, with a small chance of isolated G2 (moderate) storms.
😀 March 10: Unstable and active conditions will persist, with the continued influence of high-speed solar wind, bringing another chance of a G1 storm.

⚡️ Additionally, a large coronal hole facing Earth is already impacting the planet’s magnetic field, which could lead to further disturbances. 🌍

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☀️ Solar Eruption Heading Toward Earth: Geomagnetic Disturbances Expected ☄️🌍

😉 On March 21, 2025, significant dimmings were observed near the center of the solar disk following an M1.2 solar flare in Active Region AR 14028, located in the southwestern (lower right) quadrant of the Sun. This phenomenon may be an example of a sympathetic eruption triggered by unseen wave-like disturbances.

‼️ According to preliminary forecasts, the coronal mass ejection (CME) is expected to reach Earth late on March 23 or on March 24.

🔴 Possible effects:
➡️ Bright auroras visible even in mid-latitude regions.
➡️▪️ Disruptions in satellite and GPS systems.
➡️ Radio communication and power grid disturbances.

🔄 Attention, weather-sensitive individuals!
The anticipated geomagnetic storms may cause headaches, blood pressure fluctuations, fatigue, and insomnia. It is recommended to avoid stress, monitor your well-being, stay hydrated, and have necessary medications on hand.

⚠️ Residents of high-latitude regions should prepare for potential communication disruptions, while satellite system operators should take precautionary measures to minimize operational issues.

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☀️ Powerful Solar Storm Approaching Earth

😉 A powerful solar storm is heading toward Earth, triggered by multiple coronal mass ejections from the Sun earlier this week. These bursts of solar energy prompted NOAA’s Space Weather Prediction Center (SWPC) to issue a geomagnetic storm warning.

🌈 The peak of geomagnetic disturbances is expected between April 23 and 24, with G2-level geomagnetic activity likely. The strongest geophysical effects may persist until 9:00 PM on April 24, after which Earth’s magnetic field is expected to stabilize between April 25 and 29.

🟡 In addition to auroras, intense solar storms can impact radio communications and GPS systems.

🔭 According to NASA and NOAA experts, this active phase of the current solar cycle is expected to continue at least through the end of the year, although the exact peak remains uncertain. “The intensity of the auroras depends on how Earth’s magnetic field interacts with the solar particles,” explained SWPC meteorologist Shawn Dahl.

🔗 Source: alertageo

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☀️ Solar Event: Coronal Mass Ejection Not Directed Toward Earth
(May 19, 2025)

😉 Around 21:00 UT, a beautiful filament eruption was observed in the northeastern region of the Sun. This resulted in a coronal mass ejection (CME) that is primarily directed north of Earth.

🟡 According to experts, the eruption produced a decent-sized partial halo CME, but its trajectory indicates no impact on our planet.

😊 This event highlights ongoing solar activity but poses no threat to Earth.

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🌍 Is Earth's Magnetic Field Weakening? And What Does It Mean for Us?

Scientists are sounding the alarm! Earth's magnetic field — our invisible shield against cosmic radiation — is showing signs of weakening. But how do we know, and why should we care?

🔍 How do we know the field is weakening?
📉 Drop in intensity: Satellite and ground-based measurements show that over the past 200 years, the field has weakened by 9–15%. This is especially noticeable in the so-called South Atlantic Anomaly, where satellites frequently experience malfunctions due to increased radiation.
💨 Faster movement of magnetic poles: The North Magnetic Pole is racing toward Siberia at speeds of up to 55 km per year! The South Pole is also shifting, pointing to dynamic changes in the Earth’s core.
✨ Auroras further south: Have you noticed that auroras are becoming visible at lower latitudes? A weaker field allows solar particles to penetrate deeper into the atmosphere, creating breathtaking displays in areas where they were once rare.

⚠️ Why is this a problem?
🛡️ More radiation: A weaker magnetic field offers less protection from harmful solar wind and cosmic rays. This can affect human health (including a higher cancer risk) and impact other living organisms.
📡 Technological disruptions: Our modern society relies heavily on satellites, telecommunications, power grids, and GPS. A weakened magnetic field can cause malfunctions and damage to these vital technologies.
🐦 Disorientation in nature: Animals such as birds and sea turtles use the magnetic field for navigation. Changes in the field could disrupt migration routes and affect entire ecosystems.
☁️ Impact on the atmosphere and climate? While still under study, long-term and significant weakening of the magnetic field could affect the stability of Earth’s atmosphere and potentially global climate. (Let’s remember Mars, which lost its atmosphere after its magnetic field disappeared!)