Thursday, 27 February 2014

Robots

Even if you don't think so robots are all around us, building walls, preforming heart surgery, working in volcanoes and even making scientific discoveries. Imagine that. But replicating human intelligence and complex human intelligence is a lot harder than we thought.

There is a test called the Turing test, it tests artificial intelligence, first of all a person puts questions to a computer and another person, both of which are isolated from each other and from the interrogator. The computer and human return their answers to the interrogator. If the interrogator cannot distinguish between the computer and human, the computer has passed the turning test and is deemed intelligent.


Most people think of robots as things like robots from star wars or something but in fact robots can be completely different, doing all kinds of jobs.

In 1996 russian world chess champion Gary Kasparov played 6 rounds in chess against Deep Blue, a chess playing computer built by IBM. Kasparov won 4-2. But this was not the end, there was a rematch a year later and Kasparov lost to an updated version of Deep Blue by 3 and a half-2 and a half, it was the first time computer had beaten man in a world chess match. Deep Blue won because it was able to calculate a vast amount of moves to make and pick the best one. Also Deep Blue was completely unaffected by the emotional pressure of the match.

In the future scientists predict robots doing vast amounts of work for humans and even being faithful sidekicks.
Alan Turing, the man who invented the Turing test. During his life Alan Turing worked with the government in the second world war as a code cracker, Alan wrote a book in the 1950's about the Turing test and artificial intelligence, it was named Computing Machinery and intelligence. Alan himself named the turing test 'the imitation game'. Alan turing was also a brilliant mathematician, and shortly after writing his book he was employed by Manchester University, where the world's first stored-program computer had been working since June 1948, Turing's job was to create and manage the first software for the computer, however he also continued his research on mathematics. Alan Turing died by a cyanid drenched apple, his caretaker first found him in his room and his mother came to a conclusion that he had been doing some tests lately on cyanid and the poison had got into his apple and killed him. But some think he committed suicide because arousing official security problems. Turing was a great British scientist and mathematic.







Tuesday, 18 February 2014

The discovery of the death of the dinosaurs



It was first in the 1980's that physicist Luis Alvarez and his son, geologist Walter Alvarez were working together on a geology expedition in Italy. On the expedition they accidentally discovered a band of sedimentary rock that contained unusually high levels of the rare element iridium. Then they discovered that chemical dating put the rock at around 65 million years old. Now this is about the time the dinosaurs died out. 

Walter and Luis hypothesised that the iridium, which was in a very even, widespread distribution (not just in Italy), was the result of a giant asteroid that hit earth, sending smoke, dust and iridium into the atmosphere.

Now for a scary thought - 99.9% of all species that ever lived are extinct, 65 million years ago it was the dinosaurs turn.


So basically the earth was hit by a astroid several kilometres across as the brainy scientists, Luis Alvarez and Walter Alvarez discovered, but what really happened?

Something like this would have happened: A light streaks across the sky brighter than the sun! one second later comes a super hot blast with the force of 7 billion atom bombs!!!! The sky goes black and everything would have been blown off their feet. Next burning rocks would have rained down. Later on in the day it would start to rain acid. The weather forecast will be cold for 10,000 years, plus lots of chocking gas from volcanoes!!!!!!!!!!!!!!!!!!!!

But in some ways the end of the dinosaurs is good news, during the dinosaur era your ancestors were tiny, timid and terrified. But after the astroid destroyed the dinosaurs the mammals peeked out from their burrows and took over the earth. So without a lovely lumpy space rock we could be 5 cm long and live in a hole.







Friday, 14 February 2014

Cosmic radiation from the big bang discovered

It was in 1964 and two Americans, Arno Penzias and Robert Wilson owned a communication antenna that they were trying to make use of. But they were troubled by a persistent background noise, a steady steamy hiss that made experimental work impossible. The noise came from every point in the sky, day and night, every season.

The astronomers did everything they could to track down and eliminate the noise. They tested every electrical system. They rebuilt instruments, checked circuits, wiggled wires, dusted plugs. They climbed into the dish and placed duct tape over every seam and rivet. Then they climbed back into the dish with brooms and brushes and swept away all the bird droppings. But still the annoying noise was there.

Unknown to them, about 50 kilometres away researchers at a university were working on a idea that suggested years before by astrophysicist George Gamow: that if you looked deep enough in space, you should find some cosmic background radiation left over from the big bang. Gamow believed that by the time it had crossed the vastness of the universe the radiation would reach the earth in the form of microwaves. He had even suggested that the antenna that Wilson and Penzias were using would do the job of picking it up. So the noise that the antenna had picked up was what Gamow had anticipated. They had found the edge of the universe, or at least the visible part of it, 150 billion trillion kilometres away!!! They were seeing the first photons-the most ancient light in the universe- as microwaves.

   



The discovery of brown dwarfs

Not all stars are as big as normal stars, they just don't posses enough mass or a high enough temperature, not enough pressure in there core to start of major nuclear fusion reactions, stuff like that. These bodies continue to exist in space, but they are very hard to see because there temperatures and their brightness is much less than the stars that burn brightly- they are known as brown dwarf stars.

The first brown dwarf to be discovered was Gliese 229b in 1994. It is thought to be about 20 and 50 times the size of the planet Jupiter.


In 2011, what might be the coolest brown dwarf observed, its about 75 light years away from earth. Its called CFBDSIR 1458+10b and it has a temperature of around 90 degrees- about the same heat as fresh cup of tea!!! 

Wednesday, 12 February 2014

The discovery of the Double Helix

By playing with pieces of cardboard cut into the shapes of the 4 chemical components that make up DNA, 2 scientists called Francis Crick and James Watson were able to work out how the pieces fitted together in pairs. From this discovery in 1953 it only took them a day or two to make a Meccano like model, perhaps the most famous piece of work in modern science, the model was made up of metal plates bolted together in a spiral. It was without question a brilliant piece of detective work, for it they were awarded the nobel prize.



Crick and Watson decided that if you could find out the shape of a DNA molecule you'd be able to see how it did what it did. The shape is rather like a spiral staircase:the famous double helix:


Double helix DNA is actually very simple. It has just 4 basic components- which is like having a alphabet of only 4 letters. 

The components pair up in  particular ways to form rungs and the order in which they do this as you move up or down the ladder forms the DNA code. Because you can combine them in different ways, like you do with the dots and dashes of morse code, you end up with 3.2 billion letters of coding, enough to provide a number of possible combinations that is almost impossible to imagine (10 x 10 1,920,000,000 times if you really want to know).

DNA is not itself alive, no molecule is, but DNA is especially 'unalive'. Thats why it can be recovered from patches of long-dried blood in murder investigations, and coaxed from ancient bones to date prehistoric people.

DNA exists for just one reason: to create more DNA-and you have a lot of it inside you, nearly 2 metres squeezed into almost every cell. In fact you may have as much as 20 billion kilometres of DNA.

Monday, 10 February 2014

Age of the earth

By the 1940's scientists were at last getting close to dating the earth. One scientist, Willard Libby was busily inventing radiocarbon dating, a process which would allow scientists to get a accurate dating of the age of bones and other organic remains, something scientists had never been able to do before.

Libby's idea was based on the realisation that all living things contain a special kind of radioactive carbon called carbon-14, which begins to decay at a steady rate as its atoms start to die. Since half of the atoms in carbon 14 decay over a period of 5,600 years, this is known as its half life. So Libby was able to work out how much carbon-14 was left in any dead organism and get a good idea on its age. But there was a fault, Libby could only this for objects up to about 40,000 years old. 

In fact there were lots of problems with carbon dating, and with every other technique that followed it to find the final definite age of the earth.  Even the best of these  couldn't date anything older than about 200,000 years. But most of all, these techniques couldn't date inorganic materials like rocks, which is, of course, what you need to do to if you want to determine the age of your planet.

So it was left to a man called Clair Patterson to come up with the solution. He began work on the project in 1948, making very precise measurements of the lead-uranium ratios in specially selected rocks. These had to be rocks that were extremely ancient and contained lead- and uranium bearing crystals that were about as old as the planet - anything much younger would misleadingly youthful dates. But the problem was that rocks that old were rarely found on earth. 

finally it occurred to him that he could get around the rock shortage by using rocks from beyond earth. He turned to meteorites. The assumption he made- rather a large one, but correct was that many meteorites are left over building materials from the early days of the solar system, and thus more or less in their original state. Measure the age of these rocks and you would also have the age of the earth.

It took Patterson 7 years of patient work just to find and measure suitable samples for final testing. By this time, he had his specimens, containing minute quantities of uranium and lead locked up in ancient crystals- and he was able to tell the world that the definite age of the earth was 4,550 million years ( plus or minus 70 million years) in 1953. The earth finally has a age.

Sunday, 9 February 2014

Pulsar Stars

In 1976 Jocelyn Bell and Antony Hewish discovered the first pulsar star, a type of neutron star. Pulsars are rapidly rotating neutron stars which  have very strong magnetic fields. Beams of radiation are emitted from their magnetic-polar regions, and we can detect these if the earth is within the path of the beam.


 pulsar stars were discovered by accident, when Bell and Hewish were looking for twinkling sources of radio radiation. The explanations from the radio pulses proved the existence of neutron stars, incredibly dense remains of massively collapsed stars. Bell and Hewish were tracking the twinkling sources of radiation using a radio telescope. The telescope produced around 30 meters of chart paper each day, the data was then analysed by Jocelyn Bell. She quickly learned to recognise scintillating sources. But two months into her observations Bell became aware of a bit of scruff on the records. The new signal didn't look like it came from any scintillating source or a man made source. When Bell checked back on the records she found the scruff had occurred before, but always from the same patch of sky. This strange new signal deserved more attention so Bell starting making faster chart recordings on the area the signal had appeared. For weeks she found nothing, then finally at the end of november the signal appeared on the fast recording. the scruff was a series of pulses equally spaced and 1.3 seconds apart, 1.3 seconds is far to fast for a pulsation rate for something as large as stars so this regular signal must be man made. But when Hewish checked the records he found the position of the source meant it must be coming from outer space. Hewish and Bell considered various explanations, it wasn't radar reflected from the moon, also it wasn't a strange satellite of course. It wash't equipment failure because another telescope had also picked up the signal. Calculations showed it was well out of the solar system as well. The team measured the duration of the pulses and they found the time was only 16 milliseconds. The short duration suggested the source could be no larger than a small planet. If the radio waves were coming from another planet their frequency would shift as the planet orbited the alien sun. The frequency would be higher when it would be coming towards us and lower when it moves away. Hewish made measurements to see if the signal could come from another planet, but the measured changes were only there due to the movement of our own planet around the sun. The radio astronomy group were not sure as to how to publish their discovery. It seemed highly unlikely that the signals came from aliens but no one had a better answer. If the team had discovered alien life, who should they tell first. Bell was quite annoyed that the supposed aliens had chosen his telescope, his frequency. But when bell  returned to his analysis he found another scruff in a completely different part of the sky. Bell went out to the telescope that night and found it was another pulsing signal, slightly faster with pulses every 1.2 seconds. Now she was reassured that the pulses had some natural explanation, its very unlikely that two lots of aliens would both choose the same telescope at the same time trying to signal the same planet. By January Bell and Hewish had discovered 4 of these pulsing sources . They wrote a paper describing the source and sent it to journal nature, where it was  published on the 24th February, 1968. Thus pulsar stars were discovered. 
   


 when a star collapses on itself it ether produces a neutron star, a black hole, a dwarf star or a pulsar star