Thursday, December 29, 2011

Development of nuclear weapons

The Indo-Pakistani War of 1971 led to Pakistan losing roughly 56,000 square miles (150,000 km2) of territory as well as losing millions of its citizens to the newly created state of Bangladesh. It was a psychological setback for Pakistanis; Pakistan had lost its geo-political, strategic, and economic influence in South-Asia. Furthermore, Pakistan had failed to gather any moral support from its key allies, the United States and the People's Republic of China. Isolated internationally, Pakistan seemed to be in great mortal danger, and quite obviously could rely on no one but itself. At United Nations Security Council meeting, Prime Minister Zulfiqar Ali Bhutto drew comparisons with the Treaty of Versailles which Germany was forced to sign in 1919. There, Bhutto vowed never to allow a repeat. Prime minister Zulfikar Ali Bhutto was "obsessed" with India's nuclear program, that is why Bhutto immediately came up with the idea of obtaining nuclear weapons to prevent Pakistan from signing another 'Treaty of Versailles' as it did in 1971. At the Multan meeting on January 20, 1972, Bhutto stated, "What Raziuddin Siddiqui, a Pakistani, contributed for the United States during the Manhattan Project, could also be done by scientists in Pakistan, for their own people." Raziuddin Siddiqui was a Pakistani theoretical physicist who, in the early 1940s, worked on both the British nuclear program and the US nuclear program. Although a few Pakistanis worked on the Manhattan Project who were also willing to return and do the same for their native Pakistan, Prime Minister Bhutto still needed to recruit and bring in other Pakistani nuclear scientists and engineers who never worked in the United States. This is where Dr. Abdul Qadeer Khan, a German educated metallurgical engineer, came into the picture. Some of the initial funding came from oil-rich Arab states, particularly Saudi Arabia.

In later years, some funding for the continuation of the nuclear development programme came from the large British Pakistani population. In December 1972, Science Advisor to the President, Dr. Abdus Salam had called theoretical physicists from ICTP to report of Munir Ahmad Khan, Chairman of Pakistan Atomic Energy Commission. This marked the beginning of the "Theoretical Physics Group" (TPG). Later, Pakistani theoretical physicists at Institute of Physics of Quaid-e-Azam University also joined the TPG headed by Salam. The TPG, in PAEC, was assigned to took research in the development of nuclear weapon devices, and it had directly reported to Abdus Salam. Professor Salam also had done the groundbreaking work of the "Theoretical Physics Group", which was initially headed by Salam until in 1974 when he left the country in protest. On other side, Munir Ahmad Khan began to work on indigenous development of nuclear fuel cycle and the weapons programme. Munir Ahmad Khan, with his life long friend Abdus Salam, had done a groundbreaking work in the nuclear development, and after Salam's departure from Pakistan, scientists and engineers who were researching under Salam, began to report to directly to Munir Ahmad Khan. In 1974, Munir Ahmad Khan, days after Operation Smiling Buddha, launched the extensive plutonium reprocessing and uranium enrichment programme, and the research facilities were expanded throughout the country.

In 1965, amidst skirmishes that led up to the Indo-Pakistan War of 1965 Zulfikar Ali Bhutto announced:
“     If India builds the bomb, we will eat grass and leaves for a thousand years, even go hungry, but we will get one of our own. The Christians have the bomb, the Jews have the bomb and now the Hindus have the bomb. Why not the Muslims too have the bomb?


In 1983, Khan was convicted by a Dutch court in absentia for stealing the blueprints, though the conviction was overturned on a legal technicality. A.Q. Khan then established a proliferation network through Dubai to smuggle URENCO nuclear technology to Khan Research Laboratories. He then established Pakistan's gas-centrifuge program based on the URENCO's Zippe-type centrifuge.

Through the late 1970s, Pakistan's program acquired sensitive uranium enrichment technology and expertise. The 1975 arrival of Dr. Abdul Qadeer Khan considerably advanced these efforts. Dr. Khan is a German-trained metallurgist who brought with him knowledge of gas centrifuge technologies that he had through his position at the classified URENCO uranium enrichment plant in the Netherlands. He was put in charge of building, equipping and operating Pakistan's Kahuta facility, which was established in 1976. Under Khan's direction, Pakistan employed an extensive clandestine network in order to obtain the necessary materials and technology for its developing uranium enrichment capabilities.

A new directorate, known as Directorate of Technical Development (DTD) under Dr. Zaman Sheikh and Hafeez Qureshi, was established in March 1974 by Munir Ahmad Khan. The DTD was tasked to manufacture chemical explosive lenses, trigger mechanism, and tempers used in atomic weapon. The DTD was later charged with testing Pakistan's first implosion design in 1978, which was later improved and tested on 11 March 1983 when PAEC carried out Pakistan's first successful cold test of a nuclear device, codename Kirana-I. Between 1983 and 1990, PAEC carried out 24 more cold tests of various nuclear weapon designs. DTD had also manufactured a miniaturized weapon design by 1987 that could be delivered by all Pakistan Air Force fighter aircraft.

Also, Dr. Ishrat Hussain Usmani’s contribution to the nuclear energy programme, is also fundamental to the development of atomic energy for civilian purposes as he, with efforts led by Salam, established PINSTECH, that subsequently developed into Pakistan’s premier nuclear research institution. In addition to sending hundreds of young Pakistanis abroad for training, he laid the foundations of the Muslim world’s first nuclear power reactor KANUPP, which was inaugurated by Munir Ahmad Khan in 1972. Thus, Usmani laid solid groundwork for the civilian nuclear programme Scientists and engineers under Munir Ahmad Khan developed the nuclear capability for Pakistan within early 1980s, and under his leadership the PAEC had carried a cold test of nuclear device at Kirana Hills, evidently made from non-weaponized plutonium. Former chairman of the PAEC, Munir Ahmad Khan was credited as one of the pioneers of Pakistan's atomic bomb by a recent study from the International Institute for Strategic Studies (IISS), London's dossier on Pakistan's nuclear weapons program.

Pakistani astrophysicist

Dr. Prof. Muhammad Shahid Qureshi or Shahid Qureshi, he is best known as Dr. M. Shahid Qureshi, is a Pakistani astrophysicist and a renowned astronomer. He is an academic and an eminent educationist from Pakistan who has published articles in the fields of astrophysics and astronomy. He is the assistant professor of astrophysics and astronomy at Karachi University and Institute of Space and Planetary Astrophysics (ISPA), and also leading ISPA, the country's prominent institution in the field of planetary astrophysics and planetary astronomy. He previously served as an assistant professor of mathematics.

He is an avid supporter of science and technology in Pakistan and has helped directing documentaries concerning about the astrophysics and astronomy. He has also appeared in Geo Television and Dawn News frequently where he briefed the nation on Solar eclipse of July 22, 2009.

He graduated and received a B.Sc. with Honors in Applied Mathematics from Department of Mathematics of University of Karachi in 1979. He then received his M.Sc. in Mathematics from the same institution with specialization in Quantum mechanics, and Astronomy in 1983. In between, he served United Bank Limited, Karachi as a computer programmer to earn his living. In 1983, after getting his Master's degree, he joined as a fellow the Pakistan Institute of Nuclear Science and Technology, where he joined the "Mathematical Physics Group", and did preliminary research there.

He left PINSTECH in 1984, and moved to Karachi, Sindh. He joined University of Karachi as a lecturer to fulfill his dream to become a professor of Mathematics. Under the supervision of noted quantum theorist and renowned particle physicist Dr. Khursheed Ather Siddiqui, he did his M.Phil. in Particle physics from University of Karachi, writing a thesis and covered major area in the field of "Supersymmetric Quantum Mechanics". In 1989, he moved to the Institute of Space and Planetary Astrophysics on the directions of the then-Vice Chancellor of University of Karachi, Dr. Zafar Saeed Saifi. Qureshi did his Ph.D. in Nuclear astrophysics and Astronomy from ISPA in 2008.

His doctoral thesis is on the "Earliest Visibility of New Lunar Crescent". He has occasionally lectured in the field computational mathematics at Lahore University of Management Sciences (LUMS). Currently, he is serving at the Institute of Business Administration, Karachi (IBA) as the Chaiperson, Department of Mathematical Sciences of the Faculty of Computer Science.

Qureshi joined the teaching profession in 1984 at the University of Karachi. Later, he joined Institute of Business Administration, Karachi. For a brief period he also the Department of Computer Science as a full time Faculty member. Besides, he also taught as visiting faculty at various private sector Universities in Karachi including Institute of Business Administration.

He is a well-known astrophysicist in Pakistan. And, he has given numerous interviews to the media, concerning the fields of physical cosmology, astronomy, and astrophysics. He played an important role in re-establishing the Karachi University's Astronomical Observatory. As a noted space scientist at ISPA, he is engaged in research on Supersymmetric quantum mechanics, lunar phase, light pollution and solar energy.

At the Karachi University, he has maintain vital relationship with the professors from Karachi University. According to him, his professors played an important role in his life and influenced him to gain his doctorate in astronomy and astrophysics. According to an interview given to the Dawn News, it was one his professor who influenced him to gain his doctorate degrees in astronomy. He laments, "In 1990, one of my professors said that very soon Pakistan will be asking the world to send us teachers to teach mathematics and physics as we ran out of them. Today I am forwarding his message: we do not have teachers to teach mathematics and physics".

In 1983, he received his M.Sc. in applied mathematics and M.Phil. in 1995 writing his thesis on Supersymmetric quantum mechanics, from Karachi University. In 2008, he was awarded his an Ph.D. in Astrophysics and Astronomy, in which he wrote his thesis on "the effects of atmospheric conditions on crescent visibility, from the Karachi University.

He has been a vocal advocate for space research in Pakistan. Qureshi had been appeared in different Pakistani news channels and educational channels in which he has been advocating for space research in Pakistan. He has been also planned and sat up the astronomical and astrophysics events at the universities and high schools. With the help of Karachi University's Physics department, he planned a "Space Week event" in ISPA on October 31, 2008.

The event was called "Planet Watch" and a numbers of high school and college students were invited. He also delivered a lecture at the conference in which he urged: "You don’t need any equipment for astronomy. All you need is a pair of eyes and curiosity about the cosmos." As he told the students.

He concluded his lectured and later discloses that he worked as part of the team at Institute of Space and Planetary Astrophysics that worked on the astronomical objects, astrophysical plasma, and physical cosmology. As he explained:

"According to initial cosmology, the ancients considered the planets to be a total of seven: Mercury, Venus, Mars, Jupiter, Saturn, the Sun and the Moon (also considered planets). Hence, the days of the week were also seven".

Qureshi's articles have been printed in international and national physics journals. He has been a known cited researcher in the field of computer programming while studying at Karachi University. He has been researching to the fields of astrophysics in relation with elementary particle physics and published numerous papers at ISPA. In relation to astrophysics to particle physics, he, once elaborate, while giving a lectured:

"The well-known grand unification theory had two directions of research in the 1980s and ’90s. The Supersymmetric theory appeared as one of the results. The empirical predictions of which, could not be tested till today, due to the absence of laboratories. We will be able to test some predictions of the supersymmetry theory when the Large Hadron Collider functions at its full capability. Particle physics and astrophysics, along wide with astronomy, has remained to explore the nature of forces in the first place and of course which is closely related to cosmology, in which we describe the structure of the universe. So the other aspect of my research was astronomy and astrophysics."

His work has been far reaching and influential. Due to lack to researches to the fields of astrophysics and astronomy; Qureshi's work has been a vital support to an academic research in astrophysics. At SUPARCO, he also helped manufacturing and setting up the space observatory along with the Chinese scientists.

He has been supporting the Satellite Launch Vehicle project program at SUPARCO. He has been also urged that Pakistan should launch its satellites via either Sonmiani or Tilla. In an interview while discussing Pakistan's status on Satellite Launch Vehicle with noted nuclear physicist Dr. Pervez Hoodbhoy. While in discussion, he urged that missiles have very roboost and effective electronics and computer system, the SLVs used the similar technology. Dr. M. Shahid Qureshi also urges that Pakistan has the basic technology to build an SLV.

He discloses the discussion with Dr. Hoodbhoy and said "If we can launch a missile up to a range of 1,500 km, why not build an SLV that can launch low-atmosphere satellites?" he said. According to Dr. M.S. Qureshi, "we can begin by launching navigation, spy and weather satellites, which can go up to 1,500 km into space. This alone can give us a lot of data that we need to buy now".

    * “Climatic Variability and Linear Trend Models for Major Cities of Pakistan”, Journal of Geography and Geology, Canadian Center of Science and Education, Vol. 2, No. 1, 2010.
    * “A New Criterion of Earliest Visibility of New Lunar Crescent”, Sindh Univ. Res. Jour. (Sci. Sec.), 42(1), 1-18, 2010.
    * “On Origin Theories of Ring Galaxies: Observational Data and Modelling”, Astronomy & Applied Mathematics, Vol. I, Ed. S Nuritdinov, Pub.: Fed. Urdu University, Karachi, 67-79, 2009
    * “Path of Best Visibility of New Lunar Crescent”, Astronomy & Applied Mathematics, Vol. I, Ed. S Nuritdinov, Pub.: Fed Urdu University, Karachi, 156-161, 2009
    * “Celestial Objects’ Visibility Concern in Karachi”, Astronomy & Applied Mathematics, Vol. I, Ed. S Nuritdinov, Pub.: Fed Urdu University, Karachi, 185-194, 2009
    * “Error Minimization in Polynomial Approximation of ΔT”, J. Astrphys. Astr., 29, 363-366, 2008
    * “Assessing Polynomial Approximation of ΔT”, J. basic appl. Sci., 4(1), 1-4, 2007.
    * “Methods of Calculating Crescent Lengths”, J. basic appl. Sci., 3(2), 65-72, 2007
    * “A Comparative Study of Arithmetic Lunar Calendar, Observational and Predicted Lunar Calendar for Pakistan for Years 2000-2004”, J. basic appl. Sci., 2(2), 91-103, 2006
    * “A New Variable Step Size Algorithm for Solving Initial Value Problems”, J. basic appl. Sci., 2(1), 37-44, 2006
    * “Taqweemat aur Qudrati Mazahir”, Al-Tafseer, 2(1), 101-107, 2006
    * “A Fuzzy Mathematical Model of Maximum Likelihood Estimates”, J. basic appl. Sci., 1(2), 95-100, 2005
    * “Differential Mental Growth Model”, J. basic appl. Sci. 1(1), 11-13, 2005
    * “On the Modern Approach to the earliest Visibility of Lunar Crescent”, Kar. Un. J. Isl. St., VII(I-II), 54-76, 2005
    * “From No-Go Theorems to Supersymmetry Algebra”, Kar. Univ. J. Sc., 32(1&2), 55-62, 2004.
    * “SUSY Algebra for One Dimensional Quantum Mechanical Systems and its Application”, Kar. Univ. J. Sc. 28(2), 25-32, 2000.
    * “Generalisation of Operator Method and its Application” Kar. Univ. J. Sc. 28(1), 83-94, 2000.
    * “Solvable Supersymmetric Systems", Kar. Univ. J. Sc. 23(1&2), 27-38, 1995.

young computer whiz kid and I.T. prodigy from Pakistan

Babar Iqbal  born 2 March, 1997 in Dera Ismail Khan, Khyber Pakhtunkhwa, Pakistan is a young computer whiz kid and I.T. prodigy from Pakistan who started computer programming at the age of 5. He came to prominence by becoming the youngest Microsoft Certified Professional (MCP) in the world at the age of 9, as well as obtaining the record of being the youngest CIWA aged 9, Youngest CWNA at 10, Youngest Microsoft Student Partner (MSP) at 11 and Youngest MCTS in .NET 3.5 at 12. His work has been recognised and appreciated by President Asif Ali Zardari, the National Assembly of Pakistan, interior minister Rehman Malik as well as Microsoft. Iqbal is currently based in Dubai, United Arab Emirates where he is undergoing training and working with Microsoft.

He is Youngest XNA Game Developer, Microsoft Surface Developer, Microsoft Certified Professional (MCP) @ age of 9, Youngest Certified Internet Web Professional (CIWA) @ 9, Youngest Certified Wireless Network Administrator (CWNA), Microsoft Students Partner (MSP) @ 11 and Microsoft Certified Technology Specialist (MCTS) @ 12. A 10 years old Babar Iqbal from Dera Ismail Khan has set a world record in the field of computer by securing 80 percent marks in an examination held in Dubai.

According to the details, Babar Iqbal participated in the examination of Certified Wireless Network Administrator (CWNA) and grabbed a world record by obtaining 80 percent marks in it. He is the youngest world record holder in the computer field and has also qualified for the trainers programme.

Babar Iqbal has earlier set world records in the fields of Microsoft Certified Professional, Microsoft Certified .NET Technology Specialist and CIW.

It is pertinent to mention here that the CWNA examination is arranged by American company wherein candidates across the world participate.

Talking to APP, Babar Iqbal said that he wants to make further progress in the field of computer adding that having set three world records he has won laurels for his country and is receiving offers from a number of world reputed US companies.

His Team Explorers Won Mobile Development Award in Microsoft Imagine Cup Gulf 2011 for application/solution touch.Edu; ‘touch.Edu’ is a multi-touch Microsoft Surface, Windows 7 tablet and Windows phone 7 based interactive learning solution helping children suffering from Learning Disabilities(LD) like reading,writing,speaking,memory,maths etc in LDs like Dyslexia, Dysgraphia, Dyscalculia

world youngest Microsoft Certified Professional (MCP)

13 Year old Unema Adil has won lauels for Pakistan with her extraordinary achievment of becoming a world youngest Microsoft Certified Professional (MCP) in ASP.Net .
Umema is a shining star who has made herself recognized in different fields through her talent. She is excellent in ‘naat’ recitation and has won a total of 60 certificates and shields including four times the City District’s All Karachi Naat Competition; twice the All Sindh Naat Competition, All Pakistan Naat Competition and recently Sindh Hamd-o-Naat Award.
A student of grade eight in Mama Parsi Girls’ School, Karachi, Umema has also won the Best Talent Award for her accomplishments as well as various singing competitions.

youngest Microsoft Certified Professionals (MCPs)

Arfa Karim Randhawa  (born 1995), is a student from Faisalabad in Pakistan, who in 2004 at the age of 9 years, became the youngest Microsoft Certified Professionals (MCPs) in the world. She was invited by Bill Gates to visit the Microsoft Headquarters in USA. The vice president of the Software Development Division Mr. S. Somasegar wrote about it in his blog.

On returning to Pakistan, Arfa had numerous interviews on almost all of the country's known television channels and newspapers. In August 2005, Arfa Karim received the Fatimah Jinnah Gold Medal in the field of Science and Technology, presented by the Prime Minister of Pakistan at that time. She also received the Salaam Pakistan Youth Award again in August 2005 by the President of Pakistan. Arfa Karim is also the recipient of the President's Award for Pride of Performance. This is a very high level civil award granted to people who have shown excellence in their respective fields over a long period of time. Arfa is till now the youngest recipient of that award ever.

Arfa Karim has also represented Pakistan on various international forums, she was invited by the IT Professionals of Dubai for a stay of two weeks in Dubai. A dinner reception was hosted for her there, which was attended by the diagnostics of Dubai including the Ambassador of Pakistan. During that trip, Arfa was presented with various medals and awards. She also flew a plane in a flying club in Dubai at the age of 10, and received the first flight certificate.

In November 2006, Arfa was invited by Microsoft to be a part of the keynote session in the Tech-Ed Developers conference held in Barcelona. The theme of the conference was "Get ahead of the game" and Arfa was presented as a true specimen of being ahead of the game. She was the only Pakistani among over 5000 developers in that conference.

As of 2011, at the age of 16, Arfa Karim is studying at Lahore Grammar School Paragon Campus in her second year of A Levels. She suffered from heart attack and now admitted to hospital in a critical condition.

Monday, December 5, 2011

Gadani ship-breaking yard

Gadani ship-breaking yard is the world's third largest ship breaking yard. The yard consists of 132 ship-breaking plots located across a 10 km long beachfront at Gadani, Pakistan, about 50 kilometres northwest of Karachi.

In the 1980s, Gadani was the largest ship-breaking yard in the world, with more than 30,000 direct employees. However, competition from newer facilities in Alang, India and Chittagong, Bangladesh resulted in a significant reduction in output, with Gadani, today, producing less than one fifth of the scrap it produced in the 1980s. The recent reduction in taxes on scrap metal has led to a modest resurgence of output at Gadani, which now employs around 6,000 workers.

In the 2009-2010 fiscal year, a record 107 ships, with a combined light displacement tonnage (LDT) of 852,022 tons, were broken at Gadani whereas in the previous 2008-2009 fiscal year, 86 ships, with a combined LDT of 778,598 tons, were turned into scrap.

Capacity
Gadani currently has an annual capacity of breaking up to 125 ships of all sizes, including supertankers, with a combined LDT of 1,000,000 tons.
Although Gadani ranks as the world's third largest ship breaking yard after Alang and Chittagong in terms of volume, it is the world's leading ship breaking yard in terms of efficiency. At Gadani, a ship with 5,000 LDT is broken within 30 to 45 days, whereas in India and Bangladesh, it takes, on average, more than six months for breaking a vessel of the same size.

Operation
Ships to be broken up are run aground on the beach under their own power, then gradually dismantled. As the weight of the ship lessens, it is dragged further onto the beach until completely scrapped. In common with many other breakers in the region, scrapping ships at Gadani uses large amounts of local cheap labor with minimal mechanical assistance.

History
Informal ship-breaking operations occurred along the Gadani coastline prior to Pakistan's independence in 1947. After independence, a group of entrepreneurs made serious efforts to develop this casual trade into a regular industry. Despite their efforts, Gadani beach at that time lacked necessary infrastructure facilities including roads, utilities or accommodation or medical services for workers.

Realizing the potential importance of the ship-breaking industry to the national economy, the Government of Pakistan announced in 1978 a number of measures including the declaration of Gadani as a port, a reduction in import duties on ships designated for breaking-up, and a government task force to address infrastructure and logistics issues.

1969 to 1983 is considered to be the golden period of the ship-breaking industry. In the 1980s, the Gadani shipbreaking industry provided employment to over 30,000 workers directly, while over half a million people earned their living indirectly, through trade and industries which used ship scrap as raw material. It was described as the largest such yard in the world.

However, increased competition from rival ship-breaking yards in Alang, India, and Chittagong, Bangladesh, coupled with relatively high import duty for decommissioned vessels, led to a disastrous decline in Gaddani's output. After producing an average of one million tonnes of scrap in the 1980s, by 2001 the yard produced less than 160,000 tonnes and for ten months had no new vessel arrivals.

In 2001, the Government of Pakistan reduced ship-breaking duties from 15% to 10% and offered further incentives if industry activity improved. The measures have been effective, with a modest increase in employment to a total of around 6,000 workers.