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Live Fast, Blow Hard, and Die Young

Massive stars lead short, yet spectacular lives. And, they usually do not go quietly, instead often blowing themselves apart in supernova explosions. Astronomers are curious about the details of the final steps before these violent endings. A new image gives astronomers a look at this critical period of one massive star's life and imminent death. ...

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LiveFastBlowHardDieYoung
Biology

Did You Smell Something?

There's not a moment of our lives when smells -- or, more precisely, odor molecules -- aren't impacting our brain. It's been estimated that it takes at least 40 molecules of a given odor for us to be ... Continue reading

Smell
Astronomy

Microbes In Space

There are creatures that were living on the Space Station before the first astronauts went inside. Astronauts found a few living on the Moon. Scientists believe they could even live on Mars. These ... Continue reading

MicrobesInSpace
Engineering

Smoke Detectors

How does a smoke detector 'know' when there is a fire? Smoke detectors use one of two different methods to do their job, and for both methods the basic operating assumption is the cliche 'where ... Continue reading

SmokeDetectors
Astronomy

Neutron Stars

Ordinary matter, or the stuff we and everything around us is made of, consists largely of empty space. Even a rock is mostly empty space. This is because matter is made of atoms. An atom is a cloud of ... Continue reading

NeutronStars

1816 - The Year Without A Summer

1816YearSummerMost global temperature change occurs over a long period of time, centuries rather than years, and in small increments. But in 1816, the Northeastern part of the United State and Northern Europe were hit with successive cold fronts that brought snow and ice, and dropped temperatures almost to the freezing point. Spring started out cold, but by June of 1816, the weather warmed up, and farmers began planting their summer crops. On June 5th, a blast of dry arctic air brought summer temperatures back to winter levels in a matter of hours. That cold snap lasted about five days and was followed by several more during the summer, even bringing snow and ice in August. So what would explain a year without a summer?

Meteorologists point their fingers at a series of very active volcanoes that spewed an estimated million plus tons of volcanic dust and ash high into the atmosphere between 1812 and 1816. The worst eruption was at Mount Tambora in the Dutch East Indies in the spring of 1815. It was so violent that the explosion was heard almost a thousand miles away (about 1600 km).

Once airborne, volcanic dust particles in the atmosphere take years to fall back to the ground, and by their nature, are very good at reflecting sunlight while at the same time allowing heat to escape from the ground and lower atmosphere. It may only have an affect of a degree or two on average, but even small variations can wreak havoc with the weather worldwide. The summer of 1816 taught the cold, hard facts about the interaction of volcanoes and the global climate.