NASA launches rocket to study mysterious region in north pole

CREX-2 launched on first December to investigate the Polar cusp in the north and why the air dynamics are different

NASA's Lucy spacecraft, atop a United Launch Alliance Atlas 5 rocket for a mission to study the Trojan asteroids in the outer solar system, launches from Pad-41 at Cape Canaveral Space Force Station in Cape Canaveral, Florida, US October 16, 2021. PHOTO: REUTERS

Scientists launched the CREX-2 to learn more about the dynamics of the field cusp in the north pole.This was part of the Grand Challenge Initiative- CUSP in 2019 which was not able to launch due to little solar activity at the time. This time, two years later, the team is optimistic because the sun is in a more active stage of its cycle, which will make space weather conditions convenient to study air density in the region.

The Earth's magnetic field protects us from the solar wind, the charged particles are spewing off the sun. The field gap is called the Polar cusp, and radio and GPS systems work strangely when passing through this field. Scientists have noticed over the last 20 years that spacecrafts slow down when passing through the region.

Mark Conde, a physicist at the University of Alaska Fairbanks and principal investigator for NASA’s Cusp Region Experiment-2, sounding rocket mission, says, "At around 250 miles above Earth, spacecraft feel more drag, sort of like they’ve hit a speed bump." This is because the air around the field has been been observed to be denser but the reasons are still unknown.

CREX-2 launched from Andenes, Norway on the first of December at 4AM EST. The mission will measure the factors that could potentially explain how the region's air stays suspended. Scientists have already narrowed down two possibilities, one involving electric and magnetic activity, and another that believes the air inside the cusp is denser than the surroundings.

The launched rocket will eject 30 canisters with its own rocket motors in all four directions, which will rupture different altitudes. On bursting the cannisters will release vapor traces that will glow and indicate air movement in the atmosphere.

Conde expresses his excitement at the project and explains the difficulties they face in investigating the Polar cusp, saying that, "We’re threading a needle. We get about an hour or two each day when conditions are suitable to do the experiment.”

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