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Pangea

From about 280-230 million years ago, (Late Paleozoic Era until the Late Triassic) the continent we now know as North America was continuous with Africa, South America, and Europe. Pangea first began to be torn apart when a three-pronged fissure grew between Africa, South America, and North America. Rifting began as magma welled up through the ...

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Pangea
Astronomy

Nursery of Giants Captured in New Spitzer Image

Typically, the bigger something is the easier it is to find. Elephants, for example, are not hard to spot. But when it comes to the massive stars making up the stellar nursery called DR21, size does ... Continue reading

GiantsSpitzerImage
Engineering

NASA Hits a Hole-In-One

How are NASA and golf related? Ask the professional golfers using clubs made from NASA's space-age technology. NASA needed stronger, more durable materials for its space missions. A landmark discovery ... Continue reading

NASAHitsaHoleInOne
Medicine

My Aching Back

The back is an intricate structure of bones, muscles, and other tissues that form the posterior part of the body’s trunk, from the neck to the pelvis. The centerpiece is the spinal column, which not ... Continue reading

MyAchingBack
Medicine

What Is Botulism?

Botulism is a rare but serious paralytic illness caused by a nerve toxin that is produced by the bacterium Clostridium botulinum. There are three main kinds of botulism. Foodborne botulism is caused ... Continue reading

WhatIsBotulism

What Powered the Big Bang?

WhatPoweredtheBigBangDuring the last decade, sky maps of the radiation relic of the Big Bang---first by NASA's Cosmic Background Explorer (COBE) satellite and more recently by other experiments, including Antarctic balloon flights and NASA's Wilkinson Microwave Anisotropy Probe (WMAP)---have displayed the wrinkles imprinted on the Universe in its first moments. Gravity has pulled these wrinkles into the lumpy Universe of galaxies and planets we see today. Yet still unanswered are the questions: why was the Universe so smooth before, and what made the tiny but all-important wrinkles in the first place?

Quantum fluctuations during the Big Bang are imprinted in gravitational waves, the cosmic microwave background, and in the structure of today's Universe. Studying the Big Bang means detecting those imprints. Einstein's theories led to the Big Bang model, but they are silent on these questions as well as the simplest: 'What powered the Big Bang?' Modern theoretical ideas that try to answer these questions predict that the wrinkles COBE discovered arose from two kinds of primordial particles: of the energy field that powered the Big Bang; and gravitons, fundamental particles of space and time.

Measurements by missions of the Beyond Einstein program could separate these different contributions, allowing us to piece together the story of how time, space, and energy worked together to power the Big Bang.