Intense solar radiation
refers to the high-energy output from the Sun, which can include powerful solar flares, coronal mass ejections (CMEs), and streams of charged particles.
This intense radiation can cause phenomena like radio blackouts,
disrupt satellite and aircraft electronics, and pose a risk to
astronauts and spacecraft. On Earth, high levels of solar radiation (particularly UV) can lead to sunburn, premature aging, and skin cancer. Effects on Earth and technology
- Radio communication disruptions: Solar flares release bursts of X-rays that can ionize the Earth's upper atmosphere, causing radio blackouts.
- Satellite damage: High-energy particles from flares and CMEs can damage satellites and electronic circuits, especially in space where they are not shielded by the atmosphere.
- Aircraft and navigation interference: Intense solar activity can interfere with sensitive onboard electronics, navigation signals, and flight control data in aircraft.
- Power grid impacts: Powerful solar storms have the potential to disrupt electric power grids.
Effects on humans
- Skin damage: High levels of ultraviolet (UV) radiation can cause sunburn, premature aging, and increase the risk of skin cancer.
- Protective measures: To minimize risk, it is advised to wear protective clothing, use sun cream with a high SPF, wear sunglasses with certified lenses, and avoid going out during peak sun hours.
How to interpret intensity
- Solar flares: These are classified by intensity based on their peak X-ray emission. They are categorized into A, B, C, M, and X classes, with X-class flares being the most powerful.
- Solar radiation storms: These are categorized by the NOAA Space Weather Scale (S1-S5) based on measurements of energetic protons.
- UV index: A daily forecast that indicates the intensity of UV radiation and provides guidance on the level of protection needed.
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