The first record of
cosmic radiation made by the Pierre Auger Observatory took place on August 2nd, 2001 and marks its birth.
Not exact matches
«Long ago and far away there was a dot that expanded rapidly into the universe...» that in itself is a leap in logic my friend... many assumptions
made about
cosmic background
radiation that we know very little about.
He
made tornadoes, volcanoes, influenza, HIV, cancer, poisonous spiders, sharks, subzero temperatures, the crushing pressures on the surface of Venus, and
cosmic radiation.
In his pursuit of the elusive
cosmic radiation which would support the Big Bang, Lemaitre
made contributions to the fields of numeral analysis and analytical mechanics.
To put these numbers in perspective, the average person encounters 360 millirems of annual «background
radiation» from natural and man -
made sources, including substances in Earth's crust,
cosmic rays, residue from nuclear tests and smoke detectors.
The papers in a special issue of the journal Space Weather document and quantify measurements
made since 2009 by the
Cosmic Ray Telescope for the Effects of
Radiation (CRaTER)
radiation detector.
As Venkat discovered, the second spore coating also offers a secondary benefit: It
makes the organism unusually resistant to gamma rays, a form of
cosmic radiation that, in large doses, is fatal to men and microbes alike.
More evidence came last year, when data from the Wilkinson Microwave Anisotropy Probe, or WMAP, which analyzes the
cosmic radiation left over from the Big Bang, found that dark energy
makes up a full 73 percent of everything in the universe.
In August the craft's telescope and detectors began the most detailed study ever
made of the
cosmic microwave background
radiation, the remnant energy from the Big Bang.
Light basically didn't exist, and the hydrogen gas that
made up the majority of the interstellar medium was virtually indistinguishable from the
cosmic background
radiation, left over from the Big Bang.
In this lecture, George Efstathiou will describe how recent measurements of the
cosmic microwave background
radiation made with the Planck Satellite can be used to answer these questions and to elucidate what happened within 10 - 35 seconds of the creation of our Universe.
The energetic
radiation of the quasar
makes the surrounding intergalactic gas glow, revealing the morphology and physical properties of a
cosmic web filament.
Particle physics and cosmology
make up the big topics of interest for many young scientists at the 66th Lindau Nobel Laureate Meeting, with lectures by the pioneering researchers who won Nobel Prizes for their work in the
cosmic microwave background
radiation, neutrino mass, and the accelerating expansion of the universe.
One has to
make clear that
cosmic radiation is only one of many parameters.
The CERN Cloud study suggests
cosmic radiation (variation of which, of course, would depend on other variables — I suppose there is no end to this question unless you believe in a supernatural being that controls it all, and even then you'd have to ask why that supernatural being would choose to
make changes in
cosmic radiation to determine the independent variable, and of course, then you'd have to ask why that supernatural being was created, etc.) but offers no solid evidence that correlates changes in
cosmic radiation to measures of change in our climate.