The Universe: Magnetic Storm Threatens Earth (S5, E3) | Full Episode

Recent questions

• What is the potential impact of a solar storm on Earth?

  A solar storm from the sun could devastate Earth's infrastructure, causing widespread destruction and loss of life. The impact of a magnetic storm could result in millions of deaths, ruined national infrastructures, and long-term consequences. The destruction caused by a magnetic storm could take years to repair, with the loss of transformers and infrastructure being a major challenge. Without electricity, water supplies, fuel deliveries, and food distribution would cease, leading to a breakdown of society. The magnetic apocalypse outlined in a 2009 National Academy of Sciences report highlights the vulnerability of modern civilization to solar storms.

• How does Earth's magnetosphere protect against solar radiation?

  Earth's magnetosphere acts as a protective shield against solar radiation and coronal mass ejections, redirecting harmful particles and allowing life to thrive. Understanding magnetism is crucial in preparing for and potentially preventing the catastrophic effects of a solar magnetic storm on Earth's technological infrastructure and population. Solar flares on the sun can lead to coronal mass ejections, which can affect Earth's magnetosphere. Space weather, influenced by the sun's magnetic activity, can impact satellites, astronauts, and Earth's communication systems.

• What causes Earth's magnetic field to change direction?

  The Earth's magnetic field is generated by moving currents in the molten core. Earth's magnetic field can change direction, with the North and South poles flipping. Evidence from ice cores and deep sea geology shows that Earth's magnetic poles have switched orientation in the past. A pole reversal could lead to a weakened or non-existent magnetic field, leaving Earth vulnerable to solar magnetic storms.

• How do other planets in the solar system generate magnetic fields?

  Jupiter, Saturn, Uranus, and Neptune have actively-generated magnetic fields, with Jupiter's being the strongest in the solar system. Mars does not have a global magnetic field, but scattered magnetic fields suggest a past magnetic presence, which can be studied through Martian meteorites like ALH84001. Martian meteorite shows magnetism dating back 4 billion years. Mars had a strong magnetic field 4 billion years ago, with a thick atmosphere and flowing water. Mars' magnetic field died around 4.1 billion years ago, leading to temperature drops, water disappearance, and atmospheric loss.

• How can society prepare for potential magnetic storms?

  Massive solar storms are more common than previously thought, with potential catastrophic effects on Earth's infrastructure. A large magnetic storm could lead to the death of millions globally, emphasizing the need for infrastructure protection and planning. The power grid of an entire continent could be obliterated, leading to a collapse of essential services like water, fuel, food, and communication. The magnetic apocalypse outlined in a 2009 National Academy of Sciences report highlights the vulnerability of modern civilization to solar storms. Understanding magnetism is crucial in preparing for and potentially preventing the catastrophic effects of a solar magnetic storm on Earth's technological infrastructure and population.