ScienceIQ.com

What Are The Dangers Of Lightning?

Lightning is the underrated killer. In the United States, there are an estimated 25 million cloud-to-ground lightning flashes each year. While lightning can be fascinating to watch, it is also extremely dangerous. During the past 30 years, lightning killed an average of 73 people per year in the United States based on documented cases. This is more ...

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DangersOfLightning
Biology

West Indian Manatee, (Trichechus manatus)

Christopher Columbus was the first European to report seeing a manatee in the New World. To Columbus, and other sailors who had been at sea for a long time, manatees were reminiscent of mermaids -- ... Continue reading

WestIndianManatee
Engineering

Infrared Headphones

Infrared headphones use infrared light to carry an information signal from a transmitter to a receiver. Sounds simple enough, but the actual process is very complicated. The human ear gathers sound as ... Continue reading

InfraredHeadphones
Biology

How Biological Clocks Work

Anyone who has traveled has experienced jet lag—that groggy realization that while your day is beginning in Washington, DC, the night you just left in San Francisco is hardly over. Jet lag is an ... Continue reading

HowBiologicalClocksWork
Engineering

The Truth About Atomic And Hydrogen Bombs

In the 1930's Enrico Fermi and other scientists studying the properties of radioactive materials observed an interesting phenomenon. They found that the readings taken with a Geiger counter were lower ... Continue reading

AtomicAndHydrogenBombs

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.