Issue 2

 7 July 2024

SAFA NEWS

Engaging Parent-Teacher Meeting going on at Safa English Medium School

In a bid to strengthen the partnership between parents and educators, Safa English Medium School conducted an engaging parent-teacher meeting for class 12th and 10th. General PTM for classes 1st - 9th are also going on. The well-attended session aimed at fostering open dialogue about students' academic performance, mark sheet analysis and character development. Teachers presented detailed reports on each student's progress, addressed any areas of concern, and discussed strategies for improvement. Parents appreciated the opportunity to gain deeper insights into their children's educational experiences and to collaborate on supporting their learning journey. Principal Subair Sir highlighted the significance of these meetings in creating a nurturing and effective educational environment, expressing gratitude to all attendees for their active participation.

Student Council Elections Ignite Excitement at Safa English Medium School

The halls of Safa English Medium School  are buzzing as students gear up for the annual student council elections on 2th July. Candidates are vying for positions such as School Head Boy, Head Girl, Jr Head Boy, Head Girl , General Captain, Student Editor, Eco Coordinator, She coordinator, Fine Arts Secretary, Health and Wellness Head , Transport Head and Class representative with promises ranging from improved facilities to increased mental health support.

Campaigns have seen creative posters, engaging speeches, all aimed at capturing the votes of their peers. New initiatives to boost voter turnout include meet-and-greets with candidates and a mock election.

With electronic ballots ensuring a fair vote, the school eagerly anticipates the announcement of the new student council, ready to bring fresh ideas and energy to the school community.

Students Pay Tribute to Vaikom Muhammad Basheer with Art and Literature

"The school celebrated Basheer Day with a range of programs tailored to different age groups. Class 1 and 2 students showcased their artistic skills with coloring and pencil drawing competitions, while classes 3-8 engaged in a quiz competition on Basheer's works. Classes 9 and 10 crafted impressive character sketches, and classes 11 and 12 created thought-provoking posters. The school's Basheer Day celebration was a vibrant affair, with students participating in various activities that highlighted Basheer's literary legacy. From colorful drawings to insightful character sketches and posters, the students demonstrated their creativity and appreciation for Basheer's works."

Mazhavil Club Takes Flight: Inspiring Inauguration and Dynamic Leadership!

In Mattool Safa English Medium School, the Mazhavil Club organized a launching event. The club was inaugurated by Ameen Mattul, the medical practitioner from Abu Dhabi, under the leadership of club mentor Bisher Shamil Irfani, Salahuddeen E.K., the chairman of the Safa English Medium School, presided over the club’s announcement. The launch event featured a presentation by Jasim Adani, SSF division secretary of Madayi. A Mazhavil board has been selected Chief Shaheen (from 9-B) as the head of the club. Alongside Chief Shaheen, the assistant chiefs Najeeh(9-C), Yaseen(9-B), Adil(8-C), and Ahmed Eesa(8-D) will contribute to the club’s success.  Participants included Naseef Amani, Ibrahim Baqavi, and Sajjad Sakhaafi. The club chief, Shaheen expressed gratitude.

 

Interactive session on Doctors Day

National Doctors' Day is celebrated on 01 July every year in INDIA for the past 32 years (since 1991), honoring the legendary and renowned doctor Bidhan Chandra Roy, a politician, a freedom fighter, and an advocate for education In India. National Doctors' Day was first observed on the 01st of July 1991 in honor of Dr Bidhan Chandra Roy, to pay tribute to his contributions to the health domain. Dr B.C. Roy was a birthday-perisher, born on the 01st of July 1882 and died on the 01st of July 1962, a strange coincidence. 

To honor and celebrate the national doctors day our school had a special session with our alumni doctors of our school. the session was hosted by our school itself with presence of students from different grade. the alumnis were dr hajira yussuf, dr sameeha bint khalid, dr Nasihath A. Great doctors who completed schooling in safa. the session was about their experience ,setbacks, hardwork and inspiration. The session was a marvelous success where students got a great chance to engage with the doctors in a question ceremony. It was ended prosperously and elegantly.

Editorial ✒

From the Editorial Desk....

Dear All,
Welcome to the 2nd Edition of our Weekly Online Chronicle.
This year as we think to do something differently we planned to use an online platform to exhibit the students' creativity through online too. The whole works are by following the educational boundaries and bridged not only the learning process but also conducted their year-round curricular and co-curricular events through the virtual mode. This will be the best platform for everyone to express their creativity and caliber. So many different people, so many different ideas and so many different perspectives, just lead me to thinking of how diverse we actually are and yet we all find ways to express ourselves in the best way we can.
I'm so happy to be the part of this Editorial Board so that I can witness an array of talents of the Staff and students of  our school.
So be a part of this experience and I hope you can enjoy reading our edition.
Have a good day.
-Vinila. P. V

IF YOU WANT TO ........

If you want to admire,
Admire God's creation 

If you want to kill, Kill your pride 

If you want to give, 
Give justice to everyone 

If you want do win,
Win the hearts of others.

If you want to enjoy,
Enjoy the moments of life 

If you want to think
Think about the good of mankind 

If you want to control, 
Control your desires 

If you want to praise,
Praise the almighty

- Fathima TV (12A)

THE CRACKED POT

 A water bearer worked for a merchant who lived on top of a hill. Every day he had to walk down the hill to collect water from a stream. He would place it in two pots which he hung on each end of a pole and carried over his shoulders. One of the pot was perfect and always delivered a full portion of water at the end of the long walk. The other pot had a crack and would always arrive half full. The perfect pot was proud of its accomplishments while the poor cracked pot was ashamed of his own imperfection. One day the cracked pot spoke to the water bearer. 

"I feel like I have been such a burden to you. This crack on my side, has made me useless. I end up spiling half the water and I feel so ashamed" he said
The water bearer smiled, and quietly said, 'As we return to the merchant's house today, l want you to notice the beautiful flowers along the path. All along his side of the path the pot noticed a beautiful blaze of colourful flowers while the other side was still dry. As they reached the top of the hill, the water bearer said, "I have always known about your crack and took advantage of it by planting seeds that you watered every day. And now, look at these beautiful flowers along the way. Without you being just the way you are, the path would never have had such beauty." The cracked pot was overjoyed. He understood that the very thing he thought to be his flaw turned out to be a blessing for the flowers along the path.
-Bisher Muhammed Shafi (9B)

Never Give up

Through stormy seas 
and darkest night,
Keep your flame 
burning bright.
With each step forward, 
firm and true,
There awaits your dream.

When winds howl fierce 
and doubts arise,
Look within, where hope lies.
Keep your faith alive, 
to conquer fears 
and reach new heights.

Never give up, though 
paths may bend,
every hardship, a 
chance to mend.
With resilience as 
your guiding star,
You'll find the strength
 to go far.

Keep this flame alive, 
steady and strong,
for in the journey,
rough or smooth, 
never give up, you've 
much to prove.

-Aslaha Sharafa Abdu Raheem (12A)

The 3 Fish

Three fish, Jim, Jerry and Jack, were good friends. They lived in a beautiful pond. One day Jerry was swimming near the bank and saw some men. He quickly hid in the water, but man said, "This seems like a good pond to fish in. We should come back tomorrow and cast our nets here". Jerry was scared. He quickly swam to Jim and Jack and told them about what he had heard. He said "We should find a new place to live." But Jim and Jack just laughed." We can just avoid the fishing nets. We should not leave our home." Jerry tried to make them understand but they refused to listen. Jerry gave up and swam to the new place without them. Next Day, Jem and Jack got caught in the fisherman's net. If only they have listened to Jerry!

-Razi. P(10.A)

A famous Einstein 'Fudge' returns to haunt cosmology

There are few scientists of whom it can be said that their mistakes are more interesting than their colleagues' successes, but Albert Einstein was one. Few ''blunders'' have had a longer and more eventful life than the cosmological constant, sometimes described as the most famous fudge factor in the history of science, that Einstein added to his theory of general relativity in 1917. Its role was to provide a repulsive force in order to keep the universe from theoretically collapsing under its own weight.

Einstein abandoned the cosmological constant when the universe turned out to be expanding, but in succeeding years, the cosmological constant, like Rasputin, has stubbornly refused to die, dragging itself to the fore, whispering of deep enigmas and mysterious new forces in nature, whenever cosmologists have run into trouble reconciling their observations of the universe with their theories.

This year the cosmological constant has been propelled back into the news as an explanation for the widely reported discovery, based on observations of distant exploding stars, that some kind of ''This year the cosmological constant has been propelled back into the news as an explanation for the widely reported discovery, based on observations of distant exploding stars, that some kind of ''funny energy'' is apparently accelerating the expansion of the universe. ''If the cosmological constant was good enough for Einstein,'' the cosmologist Michael Turner of the University of Chicago remarked at a meeting in April, ''it should be good enough for us.''

Einstein has been dead for 43 years. How did he and his 80-year-old fudge factor come to be at the center of a revolution in modern cosmology?The story begins in Vienna with a mystical concept that Einstein called Mach's principle. Vienna was the intellectual redoubt of Ernst Mach (1838-1916), a physicist and philosopher who bestrode European science like a Colossus. The scale by which supersonic speeds are measured is named for him. His biggest legacy was philosophical; he maintained that all knowledge came from the senses, and campaigned relentlessly against the introduction of what he considered metaphysical concepts in science, atoms for example.


Another was the notion of absolute space, which formed the framework of Newton's universe. Mach argued that we do not see ''space,'' only the players in it. All our knowledge of motion, he pointed out, was only relative to the ''fixed stars.'' In his books and papers, he wondered if inertia, the tendency of an object to remain at rest or in motion until acted upon by an outside force, was similarly relative and derived somehow from an interaction with everything else in the universe.

''What would become of the law of inertia if the whole of the heavens began to move and stars swarmed in confusion?'' he wrote in 1911. ''Only in the case of a shattering of the universe do we learn that all bodies, each with its share, are of importance in the law of inertia.''

Mach never ventured a guess as to how this mysterious interaction would work, but Einstein, who admired Mach's incorrigible skepticism, was enamored of what he sometimes called Mach's principle and sometimes called the relativity of inertia. He hoped to incorporate the concept in his new theory of general relativity, which he completed in 1915. That theory describes how matter and energy distort or ''curve'' the geometry of space and time, producing the phenomenon called gravity.

In the language of general relativity, Mach's principle required that the space-time curvature should be determined solely by other matter or energy in the universe, and not any initial conditions or outside influences -- what physicists call boundary conditions. Among other things, Einstein took this to mean that it should be impossible to solve his equations for the case of a solitary object -- an atom or a star alone in the universe -- since there would be nothing to compare it to or interact with.

So Einstein was surprised a few months after announcing his new theory, when Karl Schwarzschild, a German astrophysicist serving at the front in World War I, sent him just such a solution, which described the gravitational field around a solitary star. ''I would not have believed that the strict treatment of the point mass problem was so simple,'' Einstein said.

Perhaps spurred in part by Schwarzschild's results, Einstein turned his energies in the fall of 1916 to inventing a universe with boundaries that would prevent a star from escaping its neighbors and drifting away into infinite un-Machian loneliness. He worked out his ideas in a correspondence with a Dutch astronomer, Willem de Sitter, which are to be published this summer by the Princeton University Press in Volume 8 of ''The Collected Papers of Albert Einstein.'' Like most of his colleagues at the time, Einstein considered the universe to consist of a cloud of stars, namely the Milky Way, surrounded by vast space. One of his ideas envisioned ''distant masses'' ringing the outskirts of the Milky Way like a fence. These masses would somehow curl up space and close it off.

His sparring partner de Sitter scoffed at that, arguing these ''supernatural'' masses would not be part of the visible universe. As such, they were no more palatable than Newton's old idea of absolute space, which was equally invisible and arbitrary.

In desperation and laid up with gall bladder trouble in February of 1917, Einstein hit on the idea of a universe without boundaries, in which space had been bent around to meet itself, like the surface of a sphere, by the matter within. ''I have committed another suggestion with respect to gravitation which exposes me to the danger of being confined to the nut house,'' he confided to a friend.

This got rid of the need for boundaries -- the surface of a sphere has no boundary. Such a bubble universe would be defined solely by its matter and energy content, as Machian principles dictated. But there was a new problem; this universe was unstable, the bubble had to be either expanding or contracting. The Milky Way appeared to be neither expanding nor contracting; its stars did not seem to be going anywhere in particular.

Here was where the cosmological constant came in. Einstein made a little mathematical fix to his equations, adding ''a cosmological term'' that stabilized them and the universe. Physically, this new term, denoted by the Greek letter lambda, represented some kind of long range repulsive force, presumably that kept the cosmos from collapsing under its own weight.

Admittedly, Einstein acknowledged in his paper, the cosmological constant was ''not justified by our actual knowledge of gravitation,'' but it did not contradict relativity, either. The happy result was a static universe of the type nearly everybody believed they lived in and in which geometry was strictly determined by matter. ''This is the core of the requirement of the relativity of inertia,'' Einstein explained to de Sitter. ''To me, as long as this requirement had not been fulfilled, the goal of general relativity was not yet completely achieved. This only came about with the lambda term.''

The joke, of course, is that Einstein did not need a static universe to have a Machian one. Michel Janssen, a Boston University physicist and Einstein scholar, pointed out, ''Einstein needed the constant not because of his philosophical predilections but because of his prejudice that the universe is static.''

Moreover, in seeking to save the universe for Mach, Einstein had destroyed Mach's principle. ''The cosmological term is radically anti-Machian, in the sense that it ascribes intrinsic properties (energy and pressure-density) to pure space, in the absence of matter,'' said Frank Wilczek, a theorist at the Institute for Advanced Study in Princeton.

In any event, Einstein's new universe soon fell apart. In another 10 years the astronomer Edwin Hubble in California was showing that mysterious spiral nebulae were galaxies far far away and getting farther -- in short that the universe might be expanding.

De Sitter further confounded Einstein by coming up with his own solution to Einstein's equations that described a universe that had no matter in it at all.

''It would be unsatisfactory, in my opinion,'' Einstein grumbled, ''if a world without matter were possible.''

De Sitter's empty universe was also supposed to be static, but that too proved to be an illusion. Calculations showed that when test particles were inserted into it, they flew away from each other. That was the last straw for Einstein. ''If there is no quasi-static world,'' he said in 1922, ''then away with the cosmological term.''

In 1931, after a trip to the Mount Wilson observatory in Pasadena, Calif., to meet Hubble, Einstein turned his back on the cosmological constant for good, calling it ''theoretically unsatisfactory anyway.''

He never mentioned it again.

In the meantime, the equations for an expanding universe had been independently discovered by Aleksandr Friedmann, a young Russian theorist, and by the Abbe Georges Lemaitre, a Belgian cleric and physicist. A year after his visit with Hubble, Einstein threw his weight, along with de Sitter, behind an expanding universe without a cosmological constant.

But the cosmological constant lived on in the imagination of Lemaitre, who found that by judicious application of lambda he could construct universes that started out expanding slowly and then sped up, universes that started out fast and then slowed down, or one that even began expanding, paused, and then resumed again.

This last model beckoned briefly to some astronomers in the early 1950's, when measurements of the cosmic expansion embarrassingly suggested that the universe was only two billion years old -- younger Earth. A group of astronomers visited Einstein in Princeton and suggested that resuscitating the cosmological constant could resolve the age discrepancy. Einstein turned them down,
saying that the introduction of the cosmological constant had been the biggest blunder of his life. George Gamow, one of the astronomers, reported the remark in his autobiography, ''My World Line,'' and it became part of the Einstein legend.

Einstein died three years later. In the years after his death, quantum mechanics, the strange set of rules that describe nature on the subatomic level (and Einstein's bete noire) transformed the cosmological constant and showed just how prescient Einstein had been in inventing it. The famous (and mystical in its own right) uncertainty principle decreed that there is no such thing as nothing, and even empty space can be thought of as foaming with energy.

The effects of this vacuum energy on atoms had been detected in the laboratory, as early as 1948, but no one thought to investigate its influence on the universe as a whole until 1967, when a new crisis, an apparent proliferation of too-many quasars when the universe was about one-third its present size, led to renewed muttering about the cosmological constant. Jakob Zeldovich, a legendary Russian theorist who was a genius at marrying microphysics to the universe, realized that this quantum vacuum energy would enter into Einstein's equations exactly the same as the old cosmological constant.

The problem was that a naive straightforward calculation of these quantum fluctuations suggested that the vacuum energy in the universe should be about 118 orders of magnitude (10 followed by 117 zeros) denser than the matter. In which case the cosmological constant would either have crumpled the universe into a black hole in the first instant of its existence or immediately blown the cosmos so far apart that not even atoms would ever have formed. The fact that the universe had been sedately and happily expanding for 10 billion years or so, however, meant that any cosmological constant, if it existed at all, was modest.

Even making the most optimistic assumptions, Dr. Zeldovich still could not make the predicted cosmological constant to come out to be less than a billion times the observed limit.

Ever since then, many particle theorists have simply assumed that for some as-yet-unknown reason the cosmological constant is zero. In the era of superstrings and ambitious theories of everything tracing history back to the first micro-micro second of unrecorded time, the cosmological constant has been a trapdoor in the basement of physics, suggesting that at some fundamental level something is being missed about the world. In an article in Reviews of Modern Physics in 1989, Steven Weinberg of the University of Texas referred to the cosmological constant as ''a veritable crisis,'' whose solution would have a wide impact on physics and astronomy.

Things got even more interesting in the 1970's with the advent of the current crop of particle physics theories, which feature a shadowy entity known as the Higgs field, which permeates space and gives elementary particles their properties. Physicists presume that the energy density of the Higgs field today is zero, but in the past, when the universe was hotter, the Higgs energy could have been enormous and dominated the dynamics of the universe. In fact, speculation that such an episode occurred a fraction of a second after the Big Bang, inflating the wrinkles out of the primeval chaos -- what Dr. Turner calls vacuum energy put to a good use -- has dominated cosmology in the last 15 years.

We want to explain why the effective cosmological constant is small now, not why it was always small,'' Dr. Weinberg wrote in his review. In their efforts to provide an explanation, theorists have been driven recently to talk about multiple universes connected by space-time tunnels called wormholes, among other things.

The flavor of the crisis was best expressed, some years ago at an astrophysics conference by Dr. Wilczek. Summing up the discussions at the end of the meeting, he came at last to the cosmological constant. ''Whereof one cannot speak, thereof one must be silent,'' he said, quoting from Ludwig Wittgenstein's ''Tractatus Logico-Philosophicus.''

-Rifa Khasim(10A)

Happy Birthday

Talenticious 

Muhammed Shafeer (12A)

Muhammed Shafeer (12A)

Shereen Sarah Ali (11A)