Dark secrets of the Universe

Dark secrets of the Universe

It’s perhaps natural that we don’t know much about how the Universe was created – after all, we were never there ourselves. But it’s surprising to realise that when it comes to the Universe today, we don’t necessarily have a much better knowledge of what is out there. In fact, astronomers and physicists have found that all we see in the Universe – planets, stars, galaxies – accounts for only a tiny 4% of it! In a way, it is not so much the visible things that define the Universe, but rather the void around them.

Cosmological and astrophysical observations indicate that most of the Universe is made up of invisible substances that do not emit electromagnetic radiation – that is, we cannot detect them directly through telescopes or similar instruments. We detect them only through their gravitational effects, which makes them very difficult to study. These mysterious substances are known as ‘dark matter’ and ‘dark energy’. What they are and what role they played in the evolution of the Universe are a mystery, but within this darkness lie intriguing possibilities of hitherto undiscovered physics beyond the established Standard Model.

Dark matter

Dark matter makes up about 26% of the Universe. The first hint of its existence came in 1933, when astronomical observations and calculations of gravitational effects revealed that there must be more 'stuff' present in the Universe than telescopes could see.

Researchers now believe that the gravitational effect of dark matter makes galaxies spin faster than expected, and that its gravitational field deviates the light of objects behind it. Measurements of these effects show that dark matter exists, and they can be used to estimate the density of dark matter even though we cannot directly observe it.

But what is dark matter? One idea is that it could contain ‘supersymmetric particles’ - hypothesized particles that are partners to those already known in the Standard Model. Experiments at the Large Hadron Collider may be able to find them.

Dark energy

Dark energy makes up approximately 70% of the Universe and appears to be associated with the vacuum in space. It is homogenously distributed throughout the Universe, not only in space but also in time - in other words, its effect is not diluted as the Universe expands.

The even distribution means that dark energy does not have any local gravitational effects, but rather a global effect on the Universe as a whole. This leads to a repulsive force, which tends to accelerate the expansion of the Universe. The rate of expansion and its acceleration can be measured by observations based on the Hubble law. These measurements, together with other scientific data, have confirmed the existence of dark energy and provide an estimate of just how much of this mysterious substance exists.

Recipe for a Universe

Μια ματιά στην κατασκευή του κόσμου.

European Organization for Nuclear Science

Recipe for a Universe

Take a massive explosion to create plenty of stardust and a raging heat. Simmer for an eternity in a background of cosmic microwaves. Let the ingredients congeal and leave to cool and serve cold with cultures of tiny organisms 13.7 billion years later.

To understand the basic ingredients and the ‘cooking conditions’ of the cosmos, from the beginning of time to the present day, particle physicists have to try and reverse-engineer the ‘dish’ of the Universe. Within the complex concoction, cryptic clues hide the instructions for the cosmic recipe.

Slowly simmer

Space, time, matter... everything originated in the Big Bang, an incommensurably huge explosion that happened 13.7 billion years ago. The Universe was then incredibly hot and dense but only a few moments after, as it started to cool down, the conditions were just right to give rise to the building blocks of matter – in particular, the quarks and electrons of which we are all made. A few millionths of a second later, quarks aggregated to produce protons and neutrons, which in turn were bundled into nuclei three minutes later.

Then, as the Universe continued to expand and cool, things began to happen more slowly. It took 380,000 years for the electrons to be trapped in orbits around nuclei, forming the first atoms. These were mainly helium and hydrogen, which are still by far the most abundant elements in the Universe.

Another 1.6 million years later, gravity began to take control as clouds of gas began to form stars and galaxies. Since then heavier atoms, such as carbon, oxygen and iron, of which we are all made, have been continuously ‘cooked’ in the hearts of the stars and stirred in with the rest of the Universe each time a star comes to a spectacular end as a supernova.

The mystery ingredient

So far so good but there is one small detail left out: cosmological and astrophysical observations have now shown that all of the above accounts for only a tiny 4% of the entire Universe. In a way, it is not so much the visible things, such as planets and galaxies, that define the Universe, but rather the void around them!

Most of the Universe is made up of invisible substances known as 'dark matter' (26%) and 'dark energy' (70%). These do not emit electromagnetic radiation, and we detect them only through their gravitational effects. What they are and what role they played in the evolution of the Universe is a mystery, but within this darkness lie intriguing possibilities of hitherto undiscovered physics beyond the established Standard Model.

Link:public.web.cern.ch/Public/en/Science/Recipe-en.html

Site found: www.cern.com

Александр Солженицын (+3 Августа 2008 г.)

Σαν χωρίς να το θυμάμαι πια, ο Αλεξάντρ Σολζενίτσιν έφτιαξε μέρος της ζωής μου στην ηλικία που άρχισα να σπουδάζω και να ψάχνω (απελπισμένα πολλές φορές) να καταλάβω πού βρίσκομαι και αν πουθενά με περιμένει κάτι.

Ο άνθρωπος αυτός στράφηκε και κοίταξε κατάματα ολόκληρο τον ολοκληρωτισμό της Σοβιετικής Ένωσης, και "έπαιξε σημαντικό ρόλο για να τελειώσει ο κομμουνισμός", ένας μόνος απέναντι στην ιστορία μέσα στον 20o αιώνα. Φαντάσου: ένα καγιάκ στη μέση του Ατλαντικού. Δέος ...

Κάπως σα να πέθανε παπούς μου, είμαι ήσυχος και λυπημένος.

Η νεκρολογία είναι του BBC.

A look at the life of Alexander Solzhenitsyn

Alexander Solzhenitsyn, who has died at the age of 89, played a significant role in ending communism. His novels were beautifully crafted, damning indictments of the repressive Soviet regime.

Born into a family of Cossack intellectuals, Alexander Solzhenitsyn graduated in mathematics and physics, but within weeks the Soviet Union was fighting Hitler for its survival.

Solzhenitsyn served as an artillery officer and was decorated for his courage, but in 1945 was denounced for criticising Stalin in a letter.

He spent the next eight years as one of the countless men enduring the gulags. He was one of the lucky ones to survive.

There followed a period of internal exile in Kazakhstan during which Solzhenitsyn was successfully treated for stomach cancer.

Instant celebrity

On his return to European Russia, he was allowed, following Khrushchev's denunciation of Stalin, to publish his largely autobiographical One Day in the Life of Ivan Denisovich, in 1962.

Solzhenitsyn spent eight years in labour camps

This made him an instant celebrity. But with the subsequent fall from power of the reformist Khrushchev, the KGB stepped up its harassment of Solzhenitsyn, forcing him to publish his work abroad.

His novels The First Circle and Cancer Ward were further damning allegories of the Soviet system.

In 1970, he was awarded the Nobel Prize for Literature. But he refused to attend the award ceremony in Stockholm for fear of not being allowed back home.

In 1973, the first of the three volumes of The Gulag Archipelago was published in the West. He had been hiding the novel from the authorities, fearful that people mentioned in it would suffer reprisals.

Branded a traitor

But his former assistant, Elizaveta Voronyanskaya, revealed its location after being interrogated by the KGB after which she hanged herself.

So Solzhenitsyn decided to publish it. The Gulag Archipelago offered a detailed account of the systematic Soviet abuses from 1918 to 1956 in the vast network of prison and labour camps.

He exposed Stalin's tyranny

Its publication led to a violent campaign against Solzhenitsyn in the Soviet press which denounced him as a traitor.

In early 1974, even Solzhenitsyn's world reputation could not prevent his arrest. But rather than put him on trial, the Soviet authorities stripped him of his citizenship and expelled him from the country.

In exile, he continued to be a source of controversy, notably when he issued a series of documents which cast serious doubt on Mikhail Sholokov's authorship of the novel And Quiet Flows the Don.

Many of his utterances were discursive and even baffling, and the admiration for him was not entirely uncritical.

Eventually, he settled in Vermont in the USA with his second wife and their three sons. Here, he completed the other two volumes of The Gulag Archipelago.

Return to Russia

Prussian Nights, a long narrative poem about the Red Army's vengeful advance into East Prussia in 1945, was published in 1977. He was said to have composed the poem and committed it to memory 25 years before, during his years in prison.

But Solzhenitsyn also rejected liberalism, dismissing the notion of democracy introduced by Gorbachev and Yeltsin as a myth. He was equally scathing of Western liberalism.

He returned to Russia in 1994 and told the Russian parliament, the Duma, that post-communist Russians were not living in a democracy.

He denounced politicians as being corrupt, and appeared regularly on television to voice his disapproval of the country which had first reviled and then embraced him.

In 2000, his book, Two Hundred Years Together, again covered sensitive ground in exploring the position of Jews in Soviet society.

He denied some charges of anti-Semitism. Gradually, his own people no longer had quite the desire to listen so carefully to his criticisms.

But former President Vladimir Putin courted his approval towards the end of the author's life, personally visiting his home in 2007 to award him the State Prize of the Russian Federation for his humanitarian work.

In 2006, the first Russian film based on one of his novels - The First Circle (V Kruge Pervom) - was shown on Russian state television, four decades after it was published.

The 10-part TV film depicted the terror of Stalin's regime, describing the Soviet Union as a huge prison camp.

Also in 2006, Solzhenitsyn, then 87, castigated Nato, accusing it of trying to bring Russia under its control.

He accused the organisation of "preparing to completely encircle Russia and deprive if of its sovereignty".

By then, Alexander Solzhenitsyn had already secured his place in history as one of the greatest Russian writers of the 20th Century.

Leonard Cohen World Tour 2008

If it be your will

That I speak no more
And my voice be still
As it was before
I will speak no more
I shall abide until
I am spoken for
If it be your will
...

254

"Hope" is the thing with feathers -
That perches in the soul -
And sings the tune without the words -
And never stops - at all -

And sweetest - in the Gale - is heard -
And sore must be the storm -
That could abash the little Bird
That kept so many warm -

I've heard it in the chillest land -
And on the strangest Sea -
Yet, never, in Extremity,
It asked a crumb - of Me.

Emily Dickinson

Επίγραμμα Ερωτικό

Πλάτωνος

Μήλον εγώ· βάλλει με φιλών σέ τις. Αλλ' επίνευσον,

Ξανθίππη· καγώ και συ μαραινόμεθα.

Johnny Lee and not Ken Lee this time

We finally got a smartboard in our very own B7 (which we will be using more efficiently in fall), but......

....if you have a Wii remote controller and an infrared pen then you can have your own whiteboard at home and save yourself a couple of thousand euros!

Watch this:

and this:


and visit here and here.

Αλίκη Τέλλογλου

Τη Δευτέρα (23 Ιουνίου 2008), ξημερώματα, πέθανε η κυρία Αλίκη Τέλλογλου, η δημιουργός του Τελλογλείου Ιδρύματος που επισκεφτήκαμε στη Θεσσαλονίκη το Μάρτη και είδαμε τα χαρακτικά του Picasso.

Διαβάστε. Κι αλλού.

Εγώ κοιτάζω τις γαρδένιες μου. Έχουν ανθίσει.

EXTRA CLASSES

TUESDAY 17 JUNE 2008
08:30 – 10:30 COMPUTER SCIENCE HL / SL
09:30 – 11:30 PHILOSOPHY HL
09:30 – 11:30 PSYCHOLOGY HL
12:00 – 14:00 GERMAN A2

WEDNESDAY 18 JUNE 2008
08:30 – 10:30 COMPUTER SCIENCE HL / SL
08:30 – 11:30 PHYSICS HL & SL
09:30 – 11:00 PHILOSOPHY HL
09:30 – 11:00 PSYCHOLOGY HL
12:30 – 14:00 GERMAN A2

THURSDAY 19 JUNE 2008
08:30 – 10:30 COMPUTER SCIENCE HL / SL

FRIDAY 20 JUNE 2008
08:30 – 10:30 COMPUTER SCIENCE HL / SL
08:30 – 11:30 PHYSICS HL & SL
09:30 – 11:30 PHILOSOPHY HL
09:30 – 11:30 PSYCHOLOGY HL
12:00 - 14:00 MODERN GREEK a,b,c,d

MONDAY 23 JUNE 2008
08:30 – 10:30 COMPUTER SCIENCE HL / SL

09:00 - 11:00 PHILOSOPHY HL
09:00 – 12:00 PHYSICS HL & SL

TUESDAY 24 JUNE 2008
08:30 – 10:00 PHILOSOPHY HL
10:00 - 12:00 MODERN GREEK a,b,c,e

WEDNESDAY 25 JUNE 2008
08:30 – 11:30 PHYSICS HL & SL
12:30 – 14:30 MODERN GREEK a,b,c,f

FRIDAY 27 JUNE 2008
09:00 – 12:00 PHYSICS HL & SL

MONDAY 30 JUNE 2008
09:00 – 12:00 PHYSICS HL & SL


WEDNESDAY 02 JULY 2008
09:00 – 12:00 PHYSICS HL & SL

FRIDAY 04 JULY 2008
09:00 – 12:00 PHYSICS HL & SL



ΚΑΙ ΦΥΓΑΜΕ!

Δίωρο μάθημα Ιουνίου

Θα ήθελα πολύ να μη φύγουμε για διακοπές χωρίς μια τελευταία συνάντηση. Θέλω να συζητήσουμε λίγο τα γραπτά, να επιστρέψω τις εργασίες WL, και να κλείσουμε τα θέματα της επόμενης εργασίας WL.

Έκανα το ακόλουθο πρόγραμμα - ελπίζω να τα καταφέρουμε μέσα σε ένα δίωρο:

Παρασκευή 20 Ιουνίου, ώρα 12: τμήμα D

Τρίτη 24 Ιουνίου, ώρα 10: τμήμα E

Τετάρτη 25 Ιουνίου, ώρα 12:30: τμήμα F

On Listening

Now, she's a musician; we read texts. What's the connection? I can't stop thinking that the best way to read is by listening, pretty much the same way she means it. And this doesn't seem to require so much training, as availability; being there, senses open.

Λιωμένο παγωτό τρέχει στο στόμα ...

Ο Καρυωτάκης είναι ίσως ο πρώτος τυχερός της καλοκαιρινής σας ανάγνωσης. Η καθεμιά (και ο καθένας, βεβαιωσβεβαίως) και το ποίημά της (είπαμε: και του).

Ας ακολουθήσει ο ηρωικός κοσμοπολίτης Πάρις Ταβελούδης (αυτό θέλει αποκρυπτογράφηση - ξενέρωτη προοπτική, τώρα που το σκέφτομαι, αλλά δε θ' αλλάξω την πρότασή μου· το αποφάσισα). Είναι απαραίτητη η διάγνωση του πόσος καιρός περνάει από την πρώτη ώς την τελευταία σελίδα του μυθιστορήματος και του με ποιο ποσοστό σαφήνειας (ή ασάφειας· όπως θέλει κανείς) τοποθετούνται τα περιστατικά στον ιστορικό χρόνο. Παράλληλο κείμενο (και η σύγκριση δίνει πάντα εφέ τούρμπο) είναι ο Λεωνής του Γιώργου Θεοτοκά. Ας τον χρησιμοποιήσετε.

Απομένει ο Καβάφης (αν είναι δυνατόν να "απομένουν" τα ποιήματά του· λόγου ρημάδα ρύμη). Τα δεκαπέντε ποιήματα καταρχήν, αλλά και ό,τι άλλο διαλέξει η καρδιά η περίεργη. Από την ανεξάντλητη βιβλιογραφία για τον Καβάφη, δύο βιβλία προτείνω για μεζέ (και κύριο πιάτο, αν τα πλακώσει κανείς):

Ρ&Η&Σ Αποστολίδης, Κ. Π. Καβάφης - Άπαντα τα δημοσιευμένα ποιήματα, Τα Νέα Ελληνικά, Αθήνα, 2006

Δ. Ν. Μαρωνίτης, Κ. Π. Καβάφης: Μελετήματα, Πατάκης, Αθήνα, 2007


Ο Παπαδιαμάντης ενδιαφέρει επίσης, με τη Φόνισσα, που θέλει προσοχή για να διαπιστώσει κανείς πόσος χρόνος περνάει από την πρώτη ώς την τελευταία σελίδα της νουβέλας, σε ποια χρονολογία τοποθετούνται ακριβώς τα περιστατικά του αφηγήματος και με ποιον τρόπο τα μαθαίνει όλα αυτά η αναγνώστρια (φτάνει· τέρμα τα αυτονόητα).

Από τον Δημήτρη Χατζή (Το Τέλος της Μικρής μας Πόλης) δείτε τον "Σαμπεθάι Καμπιλή" και τη "Διαθήκη του Καθηγητή". Τον Βασίλη Αλεξάκη: κατά βούληση.

Για την Αυλή των Θαυμάτων του Ιάκωβου Καμπανέλη θα δούμε.

ΠΡΟΑΓΩΓΙΚΕΣ ΜΑΪΟΥ-ΙΟΥΝΙΟΥ 2008: ΥΛΗ ΙΣΤΟΡΙΑΣ

ΠΕΜΠΤΗ 12 ΙΟΥΝΙΟΥ, 08:40

Από το βιβλίο Ιστορία του Μεσαιωνικού και του Νεότερου Κόσμου, 565-1815, ΟΕΔΒ, Αθήνα, 2007.

ΚΕΦΑΛΑΙΟ 1: ΣΕΛ 14-25 (ΕΚΤΟΣ ΑΠΟ ΤΟ γ)
ΚΕΦΑΛΑΙΟ 2: ΣΕΛ 33-35, 47 - 48
ΚΕΦΑΛΑΙΟ 3: ΣΕΛ 67 -71 (ΕΚΤΟΣ ΑΠΟ ΤΟ β ΚΑΙ ΤΟ γ)
ΚΕΦΑΛΑΙΟ 4: ΣΕΛ 85 – 86 (ΕΚΤΟΣ ΑΠΟ ΤΟ γ), 88 – 89 ( ΜΟΝΟ β, γ)
ΚΕΦΑΛΑΙΟ 6: ΣΕΛ 117 – 134
ΚΕΦΑΛΑΙΟ 7: ΣΕΛ 161- 166, 170 -171, 176 – 178 (ΕΚΤΟΣ ΑΠΟ ΤΟ β), 182 -183

ΠΡΟΑΓΩΓΙΚΕΣ ΜΑΪΟΥ-ΙΟΥΝΙΟΥ 2008: ΥΛΗ ΛΟΓΟΤΕΧΝΙΑΣ

21 ΜΑΪΟΥ 2008, 13:30-16:30

Από τον τόμο
Κείμενα Νεοελληνικής Λογοτεχνίας, Β΄τεύχος,
Β΄ τάξη Ενιαίου Λυκείου, ΟΕΔΒ, Αθήνα, 2007.

Πεζογραφία

Εισαγωγή (σελ. 7-9 και 14-16)
Γεώργιος Βιζυηνός, Ποίος ήτον ο φονεύς του αδελφού μου
Αλέξανδρος Παπαδιαμάντης, Το μοιρολόγι της φώκιας
Γρηγόριος Ξενόπουλος, Στέλλα Βιολάντη

Ποίηση

Εισαγωγή (σελ. 194-200)
Γιώργος Σεφέρης, Επί Ασπαλάθων
Γιάννης Ρίτσος, Ρωμιοσύνη
Οδυσσέας Ελύτης, Άξιον Εστί

η σκιά μου

μια σκοτεινή φιγούρα απαντάει το βλέμμα μου

κι ας μην την βλέπω

στο μυαλό μου διεισδύει χωρίς έλεος

ταράζει τα όνειρά μου

χαράζει την καρδιά μου

σπαράζει τα σωθικά μου

ο ήλιος βγαίνει

η φιγούρα μες το σώμα μου ακόμα παραμένει

τί να 'ναι άραγε αυτό που με σκοτώνει;

στις φλέβες μου εισχωρεί και τις ματώνει

με ανασταίνει απ' το λήθαργο

στον τάφο μου αλλάζει χρόνο

γυρίζει πίσω

μου θυμίζει στιγμές παντοτινές

οικείες μα τόσο μακρινές

δεν θα 'θελε να την αφήσω

αλλάζει παραστάσεις

ταξιδεύω σε θάλασσες με τρικυμία

αλλάζει πορεία

στο σκότος με γυρνά ξανά

φωτίζει τα όνειρά μου

δίνει ζωή στο κάλεσμά μου

τόσο καιρό κλεισμένη μες το μνήμα

είχα ξεχάσει πως ήταν η Αθήνα

τόσα χρόνια εγκλωβισμένη

μια φυλακή απομακρυσμένη

στάζω όνειρα κι επιθυμία

το αίμα κυλά ξανά σαν τρικυμία

τα σωθικά μου παίρνουνε μπροστά

το μυαλό μου σταματά να σταματά

Balzac και Lampedusa

Τα άρθρα της Britannica είναι εδώ: Balzac και Lampedusa.

Tα wiki άρθρα είναι εδώ: Balzac και Lampedusa.

Δείτε πώς ενοποιήθηκε η Ιταλία το 19ο αιώνα εδώ: Risorgimento. Ως επιστέγασμα, δείτε και την ιστορία της Γαλλίας, απ' την οποία μας ενδιαφέρει η εποχή των αρχών του 19ου αιώνα, η εποχή της παλινόρθωσης μετά τον Ναπολέοντα.

Και μιας κι είμαστε εδώ, στο ξάφρισμα της Britannica, δείτε και το άρθρο για τον ρεαλισμό. Αξίζει ό,τι κι αν πείτε!

Απ' το ν' ακούω μουσική, καλύτερα να φτιάχνω δικιά μου!

What Are We Thinking When We (Try to) Solve Problems?

New research indicates what happens in the brain when we're faced with a dilemma

By Nikhil Swaminathan

I'VE GOT IT: Two new studies address what goes on in the mind while one is trying to tease apart a difficult problem.
© ISTOCKPHOTO/MARTIN MCCARTHY

Aha! Eureka! Bingo! "By George, I think she's got it!" Everyone knows what it's like to finally figure out a seemingly impossible problem. But what on Earth is happening in the brain while we're driving towardmental pay dirt? Researchers eager to find out have long been on the hunt, knowing that such information could one day provide priceless clues in uncovering and fixing faulty neural systems believed to be behind some mental illnesses and learning disabilities.

Researchers at Goldsmiths, University of London report in the journal PLoS ONE that they monitored action in the brains of 21 volunteers with electroencephalography (EEG) as they tackled verbal problems in an attempt to uncover what goes through the mind—literally—in order to observe what happens in the brain during an "aha!" moment of problem solving.

"This insight is at the core of human intelligence … this is a key cognitive function that the human can boast to have," says Joydeep Bhattacharya, an assistant professor in Goldsmiths's psychology department. "We're interested [in finding out] whether—there is a sudden change that takes place or something that changes gradually [that] we're not consciously aware of," he says. The researchers believed they could pin down brain signals that would enable them to predict whether a person could solve a particular problem or not.

In many cases, the subjects hit a wall, or what researchers refer to as a "mental impasse." If the participants arrived at this point, they could press a button for a clue to help them untangle a problem. Bhattacharya says blocks correlated with strong gamma rhythms (a pattern of brain wave activity associated with selective attention) in the parietal cortex, a region in the upper rear of the brain that has been implicated in integrating information coming from the senses. The research team noticed an interesting phenomenon taking place in the brains of participants given hints: The clues were less likely to help if subjects had an especially high gamma rhythm pattern. The reason, Bhattacharya speculates, is that these participants were, in essence, locked into an inflexible way of thinking and less able to free their minds, and thereby unable to restructure the problem before them.

"If there's excessive attention, it somehow creates mental fixation," he notes. "Your brain is not in a receptive condition."

At the end of each trial, subjects reported whether or not they had a strong "Aha!" moment. Interestingly, researchers found that subjects who were aware that they had found a new way to tackle the problem (and so, had consciously restructured their thinking) were less likely to feel as if they'd had eureka moment compared to more clueless candidates.

"People experience the "Aha!" feeling when they are not consciously monitoring what they are thinking," Bhattacharya says, adding that the sentiment is more of an emotional experience he likens to relief. "If you're applying your conscious brain information processing ability, then you're alpha." (Alpha brain rhythms are associated with a relaxed and open mind; volunteers who unwittingly solved problems showed more robust alpha rhythms than those who knowingly adjusted their thinking to come up with the answer.)

He says the findings indicate that it's better to tackle problems with an open mind than by concentrating too hard on them. In the future, Bhattacharya says, his team will attempt to predict in real-time whether a stumped subject will be able to solve a vexing problem and, also, whether they can manipulate brain rhythms to aid in finding a solution.

The second probe into problem-solving focused on the anterior cingulate cortex (ACC), a region in the front of the brain tied to functions such as decision making, conflict monitoring and reward feedback. A team at the University of Lyon's Stem Cell and Brain Research Institute in Bron, France reports in Neuron that it verified that the ACC helps detect errors during problem solving (as previously discovered), but also that it does so by acting more as a general guide, monitoring and scoring the steps involved in problem solving, pointing out miscalculations as well as success.

The team discovered this by recording electrical activity in the brains of two male rhesus monkeys as they tried to determine which targets on a screen would result in a tasty drink of juice. "When you're trying to solve a problem, you need to search; when you discover the solution, you need to stop searching," says study co-author Emmanuel Procyk, coordinator of the Institute's Department of Integrative Neurobiology. "We need brain areas to do that."

He says that researchers observed increased neuronal activity in the animals' ACCs when they began searching. When the monkeys hit the jackpot, there was still heightened activity in the ACC (though only a selective population of nerve cells remained hopped up), indicating that the region is responsible for more than simply alerting the rest of the brain when errors are made. Once the monkeys got the hang of it—and routinely pressed the correct target—ACC activity slowed.

"What we think based on this experiment and other experiments," Procyk says, "is that this structure is very important in valuing things." It essentially scores each of the monkey's behaviors as successful or not successful. "It is an area," he adds, "that will help to decide when to shift from the functioning that goes on when [the brain is] learning to when the learning [is] done."

Procyk says that if this system is compromised, it could have implications for issues such as drug dependency. If the ACC is functioning abnormally, he says, it could overvalue drugs, leading to addiction. (Other studies have shown that an impaired cingulate cortex can result in maladaptive social behavior and disrupted cognitive abilities.)

Alas, the ultimate "Aha!" moment for researchers probing problem solving is likely is far off, but at least the latest research may help them avoid an impasse.

Για όσους ενδιαφέρονται να μάθουν λίγα για όσα λαμβάνουν χώρα σε ένα όργανο του σώματος τους, του οποίου οι δυνατότητες χρησιμοποιούνται κατά λιγότερο από 2%, μπορούν να ψάξουν στην ιστοσελίδα: www.sciam.com --> Mind+Brain

Ασκητική

Το παρακάτω απόσπασμα ανήκει στην Ασκητική του Νίκου Καζαντζάκη

Πρόλογος

Ερχόμαστε από μια σκοτεινή άβυσσο· καταλήγουμε σε μια σκοτεινή άβυσσο· το μεταξύ φωτεινό διάστημα το λέμε Ζωή.

Ευτύς ως γεννηθούμε, αρχίζει κι η επιστροφή· ταυτόχρονα το ξεκίνημα κι ο γυρισμός· κάθε στιγμή πεθαίνουμε. Γι αυτό πολλοί διαλάλησαν: Σκοπός της ζωής είναι ο θάνατος.

Μα κι ευτύς ως γεννηθούμε, αρχίζει κι η προσπάθεια να δημιουργήσουμε, να συνθέσουμε, να κάμουμε την ύλη ζωή· κάθε στιγμή γεννιούμαστε. Γι´ αυτό πολλοί διαλάλησαν: Σκοπός της εφήμερης ζωής είναι η αθανασία.

Στα πρόσκαιρα ζωντανά σώματα τα δυο τούτα ρέματα παλεύουν:
α) ο ανήφορος, προς τη σύνθεση, προς τη ζωή, προς την αθανασία·
β) ο κατήφορος, προς την αποσύνθεση, προς την ύλη, προς το θάνατο.

Και τα δυο ρέματα πηγάζουν από τα έγκατα της αρχέγονης ουσίας. Στην αρχή η ζωή ξαφνιάζει· σαν παράνομη φαίνεται, σαν παρά φύση, σαν εφήμερη αντίδραση στις σκοτεινές αιώνιες πηγές· μα βαθύτερα νιώθουμε: η Ζωή είναι κι αυτή άναρχη, ακατάλυτη φόρα του Σύμπαντου.

Αλλιώς, πούθε η περανθρώπινη δύναμη που μας σφεντονίζει από το αγέννητο στο γεννητό και μας γκαρδιώνει· φυτά, ζώα, ανθρώπους· στον αγώνα; Και τα δυο αντίδρομα ρέματα είναι άγια.

Χρέος μας λοιπόν να συλλάβουμε τ´ όραμα που χωράει κι εναρμονίζει τις δυο τεράστιες τούτες άναρχες, ακατάλυτες Ορμές· και με τ´ όραμα τούτο να ρυθμίσουμε το στοχασμό μας και την πράξη.

About the Brain

Making sense of the brain's mind-boggling complexity isn't easy. What we do know is that it's the organ that makes us human, giving people the capacity for art, language, moral judgments, and rational thought. It's also responsible for each individual's personality, memories, movements, and how we sense the world.

All this comes from a jellylike mass of fat and protein weighing about 3 pounds (1.4 kilograms). It is, nevertheless, one of the body's biggest organs, consisting of some 100 billion nerve cells that not only put together thoughts and highly coordinated physical actions but regulate our unconscious body processes, such as digestion and breathing.

The brain's nerve cells are known as neurons, which make up the organ's so-called "gray matter." The neurons transmit and gather electrochemical signals that are communicated via a network of millions of nerve fibers called dendrites and axons. These are the brain's "white matter."

Και που να σκεφτεί κανείς πόσο από αυτό χρησιμοποιούμε πολλοί.

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Γενική Συνέλευση ΟΗΕ

Χαρακτηριστικό στιγμιότυπο από τη μετάβαση δύο διπλωματικών αποστολών στη Γενική Συνέλευση του ΟΗΕ που έλαβε χώρα στον Πειραιά μεταξύ 28 και 30 Μαρτίου 2008.

Επόμενη Γενική Συνέλευση συγκαλείται για τις 10 και 11 Μαΐου 2008 στο κτίριο ΙΒ της Σχολής Μωραΐτη.

Οι διπλωμάτες των κρατών-μελών του Οργανισμού ΗΕ παρακαλούνται να δηλώσουν διαθεσιμότητα και ειδικές διατροφικές προτιμήσεις (π.χ. κοτόπουλο ταντούρι ή κοτόπουλου κάρρυ; τσίκεν τίκα ή πίκιγκ ντακ; κ.ο.κ.) σύμφωνα με την καθοδήγηση του αποκλειστικού μπλογκ των διοργανωτών, moremun.