What Happens at the Edge of a Black Hole?

The greatest extremes of gravity in the Universe today are the black holes formed at the centers of galaxies and by the collapse of stars. These invisible bodies can be studied by examining matter swirling into them, and by listening to the waves of distortion they make in spacetime. New data from X-ray satellites, such as NASA's Chandra X-ray ...

Engineering

High Altitude

Have you ever read the directions on a box of cake mix? There are special instructions for high-altitude baking. Has anyone who visited the Rocky Mountains told you how hard it was to breathe there? ... Continue reading

Biology

Microorganisms: Are they really that bad?

We buy antibacterial hand soaps and cleaners to get rid of microorganisms that we don't want around us or our homes, but can some of them actually be helpful? You may think that they only cause harm, ... Continue reading

Biology

Wise As An Owl

Are owls the smartest birds? According to trainers that work with them, not by a long shot. Parrots are easy to train and can have extensive vocabularies. Hawks can be taught to retrieve objects. Even ... Continue reading

Geology

Antarctica and Climate Change

Because of its influence on world weather and climate patterns, Antarctica lies at the heart of the debate on climate change and has become the premier location in which to study the effects of global ... Continue reading

Solar Spitwads

by NASA Marshall Space Flight Center

SolarSpitwads Take a piece of paper. Make a little wad. If you're a kid, spit on it. Put it in a straw and blow hard. If your teacher sends you to the principal's office, here's your excuse: you were making a model of relativistic protons accelerated in the shock front of a solar coronal mass ejection (CME). It was done in the name of science. Really. Solar explosions and spitwads do have something in common. CMEs hurl subatomic particles across the solar system at nearly light speed. Those particles are guided, much like a spitwad in a straw, by the Sun's magnetic field.

The Sun is a star-sized magnet; its magnetic field permeates the solar system all the way from Mercury to Pluto and beyond. We don't feel it on Earth only because our planet's own magnetic field is locally stronger--but in interplanetary space, the Sun's magnetic field rules. Because the Sun rotates on its axis (once every 27 days), the Sun's magnetic field out among the planets has a spiral shape. Researchers call it 'the Parker spiral' after the physicist who first described it.

What Happens at the Edge of a Black Hole?

High Altitude

Microorganisms: Are they really that bad?

Wise As An Owl

Antarctica and Climate Change

Solar Spitwads

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