What Training Is Necessary for a Career in Computer Engineering Technology?



Careers in Computer Engineering Technology require some training, usually achieved through an associate's degree or bachelor's degree in Computer Engineering Technology. Though breaking into a career in Computer Engineering Technology may take only two years of collegiate study, be prepared to continue learning new information as technology develops and changes. Read on to discover how you can enter the workforce as a Computer Engineering Technician or Technologist.

A Computer Engineering Technician inspects, maintains, builds or sells computers or other technological devices. According to the United States Bureau of Labor Statistics at www.bls.gov, people interested in a career in Computer Engineering Technology should have at least an associate's degree in Computer Engineering Technology. If you have good math skills, love to solve problems and think outside of the box, you have the building blocks for a career in Computer Engineering Technology.

Choosing the Right Computer Engineering Technology Degree Program

Choosing an Associate's Degree

Most people in the Computer Engineering Technology field have an associate's degree. As you look for your ideal program, find out which programs are accredited by ABET, because many employers prefer graduates from an ABET-accredited program. Find out if the degree program is designed to teach you the skills needed to be an entry-level Computer Engineering Technician or if it is used as a stepping stone for further studies.

Considering a Bachelor's Degree

People with a bachelor's degree in Computer Engineering Technology usually go on to become Computer Engineering Technologists. Technologists generally advance in their organization more quickly, receive more responsibilities, supervise more often and get more difficult assignments. Though there is not a large difference in the entry-level pay rates for technologists and technicians, employers may give preference to graduates with a bachelor's degree during hiring.

Training After Employment

Education does not stop after college for the Computer Engineering Technician. Once you find a job as a technician or technologist, you will gradually complete more complex assignments with less supervision. You will need to stay current on technological advances. A professional certification is not usually considered necessary, but certification is available through the National Institute for Certification in Engineering Technologies.

Steps to Becoming a Computer Engineer

 5 Steps to Becoming a Computer Engineer


Computer Engineers analyze, design and evaluate the hardware and software components of computer systems. Students interested in becoming a Computer Engineer must have a Bachelor of Science in Computer Engineering.

Step 1: Researching Computer Engineer Career Duties and Education

Computer Engineers develop, design, manufacture, test and manage software and hardware for computer systems. Graduates of Computer Engineering programs generally have a bachelor's degree, such as a Bachelor of Science in Computer Engineering. They are employed in all sectors of the economy, including transportation, communication, defense, manufacturing, service, medical, consumer goods and financial services. Computer Engineers work on communication systems and products with embedded computers, like cell phones, surgical tools, digital video recorders and digital audio players.

Step 2: High School Preparation

Students interested in becoming a Computer Engineer can begin preparation while in high school. Coursework should focus on math and science classes, including algebra, calculus, geometry, trigonometry, physics, biology, chemistry, electronics, programming and computer science.

Step 3: Earn A Bachelor of Science in Computer Engineering

Graduates who earn a Bachelor of Science in Computer Engineering will obtain the computer science knowledge, problem solving and decision making skills necessary to land an entry-level job. Coursework required for this degree covers databases, programming, computer graphics, information systems, software design, network design, analog and digital circuit design.

Step 4: Gain Valuable Work History With An Internship

Students should begin as early as their freshman year to identify potential sources for internships that will give them hands-on experience working in an engineering lab or manufacturing facility. Many firms offer internships after the first or second year of undergraduate studies. Students should also take the initiative to contact companies they would like to work for and inquire about positions. Engineering societies, college career centers and job boards provide additional opportunities to intern as a Computer Engineer.

Step 5: Enhance Your Career Options With An Advance Computer Engineering Degree

The additional knowledge and training gained from obtaining Master's of Science in Computer Engineering or a Doctorate in Computer Engineering allow graduates to build expertise in specialize areas, such as artificial intelligence, computer design and engineering, computer architecture and operating systems. Graduates of advance degree programs often go on to become researchers, teachers and entrepreneurs.

WikiLeaks: More US documents coming on Afghan war


LONDON – The release of some 91,000 secret U.S. military documents on the Afghanistan war is just the beginning, WikiLeaksfounder Julian Assange promised Monday, adding that he still has thousands more Afghan files to post online.
The White House, Britain and Pakistan have all condemned the online whistle-blowing group's release Sunday of the classified documents, one of the largest unauthorized disclosures in military history. The Afghan government in Kabul said it was "shocked" at the release but insisted most of the information was not new.
The documents cover some known aspects of the troubled nine-year conflict: U.S. special operations forces have targeted militants without trial, Afghans have been killed by accident, and U.S. officials have been infuriated by alleged Pakistani intelligence cooperation with the very insurgent groups bent on killing Americans.
Still, they also included unreported incidents of Afghan civilian killings and covert operations against Taliban figures.
Assange told reporters in London that what's been reported so far on the leaked documents has "only scratched the surface" and said some 15,000 files on Afghanistan are still being vetted by his organization.
He said he believed that "thousands" of U.S. attacks in Afghanistan could be investigated for evidence of war crimes, although he acknowledged that such claims would have to be tested in court.
"It is up to a court to decide really if something in the end is a crime," he said.
Assange pointed in particular to a deadly missile strike ordered by Taskforce 373, a unit allegedly charged with hunting down and killing senior Taliban targets. He said there was also evidence of cover-ups when civilians were killed, including what he called a suspiciously high number of casualties that U.S. forces attributed to ricochet wounds.
White House national security adviser Gen. Jim Jones said the release of the documents "put the lives of Americans and our partners at risk." In a statement, he took pains to point out that the documents describe a period from January 2004 to December 2009, mostly during the administration of President George W. Bush.
Jones noted that time period was before President Obama announced a new strategy.
Pakistan's Ambassador Husain Haqqani agreed, saying the documents "do not reflect the current on-ground realities," in which his country and Washington are "jointly endeavoring to defeat al-Qaida and its Taliban allies."
The U.S. and Pakistan assigned teams of analysts to read the records online to assess whether sources or locations were at risk.
Pakistan's powerful spy agency, Inter-Services Intelligence, said Monday that the accusations it had close connections to Taliban militants were malicious and unsubstantiated.
A senior ISI official said they were from unverified raw intelligence reports and were meant to impugn the reputation of the spy agency. He spoke on condition of anonymity in line with the agency's policy.
Hamid Gul, a former head of the ISI who is mentioned many times in the documents, also denied allegations that he'd worked with the insurgents.
The New York Times said the documents reveal that only a short time ago, there was far less harmony in U.S. and Pakistani exchanges.
The Times says the "raw intelligence assessments" by lower level military officers suggest that Pakistan "allows representatives of its spy service to meet directly with the Taliban in secret strategy sessions to organize networks of militant groups that fight against American soldiers in Afghanistan, and even hatch plots to assassinate Afghan leaders."
The Guardian, however, interpreted the documents differently, saying they "fail to provide a convincing smoking gun" for complicity between the Pakistan intelligence services and the Taliban.
The leaked records include detailed descriptions of raids carried out by a secretive U.S. special operations unit called Task Force 373 against what U.S. officials considered high-value insurgent and terrorist targets. Some of the raids resulted in unintended killings of Afghan civilians, according to the documentation.
During the targeting and killing of Libyan fighter Abu Laith al-Libi, described in the documents as a senior al-Qaida military commander, the death tally was reported as six enemy fighters and seven noncombatants — all children.
Task Force 373 selected its targets from 2,000 senior Taliban and al-Qaida figures posted on a "kill or capture" list, known as JPEL, the Joint Prioritized Effects List, the Guardian said.
U.S. government agencies have been bracing for the deluge of classified documents since the leak of helicopter cockpit video of a 2007 firefight in Baghdad. That was blamed on a U.S. Army intelligence analyst, Spc. Bradley Manning, 22, of Potomac, Md. He was charged with releasing classified information earlier this month. Manning had bragged online that he downloaded 260,000 classified U.S. cables and transmitted them to Wikileaks.org.
Assange on Monday compared the impact of the released material to the opening of the East German secret police archives. "This is the equivalent of opening the Stasi archives," he said.
He also said his group had many more documents on other subjects, including files on countries from across the globe.
"We have built up an enormous backlog of whistleblower disclosures," he said.
Assange said that he believed more material would flood amid the blaze of publicity.
"It is our experience that courage is contagious," he said. "Sources are encouraged by the opportunities that they see before them."
___
Dozier reported from Washington. Associated Press writers Kirsten Grieshaber in Berlin and Robert Burns in Washington contributed to this report.

Medical device problems hurt 70,000+ kids annually


CHICAGO – More than 70,000 children and teens go to the emergency room each year for injuries and complications from medical devices, and contact lenses are the leading culprit, the first detailed national estimate suggests.
About one-fourth of the problems were things like infections and eye abrasions in contact lens wearers. These are sometimes preventable and can result from wearing contact lenses too long without cleaning them.
Other common problems found by researchers at the U.S. Food and Drug Administration include puncture wounds from hypodermic needles breaking off in the skin while injecting medicine or illegal drugs; infections in young children with ear tubes; and skin tears from pelvic devices used during gynecological exams in teen girls.
Malfunction and misuse are among possible reasons; the researchers are working to determine how and why the injuries occurred and also are examining the prevalence in adults. Those efforts might result in FDA device warnings, depending on what they find, said study co-author Dr. Brock Hefflin.
The most serious problems involved implanted devices such as brain shunts for kids with hydrocephalus (water on the brain); chest catheters for cancer patients receiving chemotherapy at home; and insulin pumps for diabetics. Infections and overdoses are among problems associated with these devices. Only 6 percent of patients overall had to be hospitalized.
Dr. Steven Krug, head of emergency medicine at Chicago's Children's Memorial Hospital, said the study highlights a trade-off linked with medical advances that have enabled chronically ill children to be treated at home and live more normal lives.
Home care can be challenging for families; Krug says he has seen children brought in because catheters were damaged or became infected.
"Health care providers need to be aware of these kids and their devices and how to recognize or diagnose" related problems, Krug said. He was not involved in the study.
The study appears in Pediatrics, published online Monday.
Hefflin and lead author Dr. Cunlin Wang work in the FDA's Center for Devices and Radiological Health. They note there has been recent concern about medical device safety in children, particularly since many devices intended for adults are used in children.
The researchers analyzed medical records from ER visits reported in a national injury surveillance system. Based on data from about 100 nationally representative hospitals, they estimated that 144,799 medical device-related complications occurred during 2004 and 2005, or more than 70,000 yearly.
Almost 34,000 problems were linked with contact lenses in the two-year period. The rest were scattered among 12 other categories including general medical devices such as needles and catheters, gynecology devices and heart devices.
Hefflin said the study is the first to evaluate device-related injuries in children only. It did not include device problems in already hospitalized children.
This news from Yahoo News

Test record holder Muttiah Muralitharan to retire

SRI Lanka's world record holding bowler Muttiah Muralitharan will retire from Test cricket after the first match against India this month.

"Muttiah Muralitharan has decided to retire from Test cricket after the first Test in Galle versus India commencing July 18," Sri Lanka Cricket said on its website.
Muralitharan, 38, who is affectionately known as Murali, is the most successful bowler in history with a record 792 Test wickets.
Sri Lanka Cricket said he had the blessing of President Mahinda Rajapakse to retire early, although he had previously said he wanted to remain until the 2011 World Cup.
Factfile on Muttiah Muralitharan
1972: Born Kandy, April 17.
1991: Selected for Sri Lanka A's tour of England.
1992: Makes Test debut against Australia in Colombo. 1995: No-balled in Melbourne Test against Australia by                
                                                                umpire Darrell Hair for throwing. 
1996: No-balled in Brisbane Test against Australia by umpire Ross Emerson for throwing.
1996: Bowling action cleared by International Cricket Council.
1998: Takes nine for 65 against England at The Oval.
1999: Joins Lancashire and takes 66 wickets in just six County Championship games.
1999: No-balled again for throwing by Emerson in Brisbane Test against Australia; action once again cleared by ICC.
2001: Plays for Lancashire again and takes 50 wickets in seven County Championship matches.
2001: Becomes fastest ever bowler to take 350 Test wickets, achieving the feat in 66 matches.
2002: Takes nine for 51 in first innings of second Test against Zimbabwe in Kandy.
2004: March - Becomes third bowler in history to take 500 Test wickets, during second Test against Australia.
May - Becomes highest wicket-taker in Test history - overtaking Courtney Walsh's 519 victims.
2006: March - Takes 600th Test wicket in second Test against Bangladesh in Bogra a week after becoming first man to reach 1,000 in all international cricket.
2006: June - Takes eight for 70 to help Sri Lanka win by 134 runs to level the npower Test series against England at Trent Bridge.
2007: March/April - Takes 23 wickets at World Cup to help Sri Lanka to final.
July - With last of 26 wickets in three-Test series against Bangladesh, on his home ground at Kandy, becomes second player - after his great spin rival Shane Warne - to reach 700 Test wickets.
December 3 - Back at Kandy again, Murali bowls Paul Collingwood to go above Warne as Test cricket's leading all-time wicket-taker with 709.
2008: July - Takes 11 for 110 as Sri Lanka win the first Test against India in Colombo in a match which featured a debut for a new spin sensation, Ajantha Mendis.
2009: February 5 - Takes 503rd one-day international wicket against India, breaking Wasim Akram's record.
February 21 - Takes 770th Test wicket against Pakistan in Karachi.
July 30 - Takes 507th ODI wicket against Pakistan in Dambulla; announces he plans to retire from Test cricket after the November  2010 series against West Indies.
2010: July 6 - Brings forward date of retirement to end of first Test against India, which begins July 18.

Anti-India groups operate openly in Pak



Anti-India groups operate openly in Pak:







Earlier, top US admimistration officials pointed fingers at the Tehreek-e-Taliban Pakistan for the failed Times Square bombing attempt.
Major radical organisations, including anti-India militant groups, continue to operate openly in Pakistan, a US media report said on Monday.
"Banned groups such as Lashkar-e-Tayiba and Jaish-e- Mohammed have formed organisations with new names that operate freely. Some of their leaders have been arrested for alleged links to terrorist attacks; then released by the courts,"The Washington Post said.
Meanwhile, identical statements came from United States Attorney General Eric Holder, and Deputy National Security Advisor John Brennan, who blamed the Pakistan Taliban for the Times Square bomb attempt.
India has repeatedly pointed out that Pakistan has so far been reluctant to take action against anti-India terrorist groups like LeT and JeM and its leaders, against whom New Delhi has provided evidence, are still free. Validating India's contention, The Washington Post said major anti-India militant groups and other radical Sunni organisations in Punjab are still active. 

Image: A member of the NYPD bomb squad Unit examines a suspicious package at Times Square
Some Pak officials know where Laden is: Clinton
Hillary Clinton





US Secretary of State Hillary Clinton said some people in the Pakistani government are aware of the whereabouts of elusive Al Qaeda leader Osama bin Laden and Afghan Taliban chief Mullah Omar.
 Osama bin Laden

The Obama Administration, meanwhile, for the first time accused Taliban of being behind the botched Times Square bombing plot.
"Some Pakistani officials were more informed about the Al Qaeda and the Taliban than they let on," Clinton told CBS in an interview.
"I'm not saying that they're at the highest levels but I believe that somewhere in this government are people who know where Osama bin Laden and the Al Qaeda is, where Mullah Omar and the leadership of the Afghan Taliban is, and we expect more cooperation to help us bring to justice, capture or kill, those who attacked us on 9/11," she said.
Clinton had over the weekend warned Pakistan that it would face "very severe consequences" if any terror plot like the failed Times Square bombing was traced to that country.
"We've made it very clear that if, heaven forbid, an attack like this that we can trace back to Pakistan were to have been successful, there would be very severe consequences," she had said.
Asked if US was not getting sufficient cooperation from Islamabad in anti-terror drive, the US top diplomat acknowledged there was a "sea change" in cooperation by Pakistani authorities, but added "we want more".



Will the world really end in 2012?

 Will the world really end in 2012?


There have been countless theories throughout time about how the world will end and how -- or if -- life will cease to exist. At the turn of the 21st century,conspiracy theorists claimed that the Y2K bug was only a small part of the impending devastation: The new century would bring about total destruction, and no one would survive. Others believe that  Earth is slated for another ice age, which will kill off all living things. And according to astronomers, billions of years from now, the
 sun will become a red giant, expanding to a size larger than the Earth's orbit and consuming Earth in the process. Even if the planet somehow survives, the sun will eventually shrink, becoming a white dwarf and gradually cooling off until it can no longer warm anything in the solar system.
In 2006, Mel Gibson released a movie about the Mayan civilization. "Apocalypto" follows one man's journey from slavery back to his family. During the course of the movie, a young woman prophesizes that a man will bring an end to the Mayans and wipe out their civilization. But in the real world, some speculators don't believe a man will be the end of the Mayans -- instead, they think a celestial event will be the cause. The Mayan calendar even gives us a potential date for the theoretical downfall: Dec. 21, 2012.

Many doomsayers hang onto the idea that this ancient calendar is a ticking time bomb signaling our fast-approaching demise during the 2012 winter solstice. While scholars pay little heed to these fervent forecasts, they're still interested in the calendar. For example, there is some lingering disagreement over which day marks the exact beginning of the Mayan calendar. One commonly referenced date is Aug. 11, 3114 B.C., although other researchers pinpoint dates such as Aug. 13, 3114 B.C. (which would make Dec. 23 the big day.)
So how does the Mayan calendar system work? Do the Mayans really believe we have only a limited time left on Earth, and if so, why would Dec. 21, 2012, be the appointed doomsday? Read on to find out if the end is near.

How the Mayan Calendar Works



Most people around the globe look at some form of a calendar every single day. Business executives check to see when their meetings are scheduled. The busy mom confirms soccer practices and piano lessons. College students ensure that their papers are turned in on time and they have plenty of time to study for exams. For the people of ancient Maya, calendars were just as important to daily life as they are to people today.
The Mayans originated in a region called Mesoamerica, or Middle America. This region lies in between Mexico and South America and was home to many other cultures, including the Aztec, Olmec, Teotihuacan and Toltec. The Mayans lived in what are today Guatemala, Belize, Honduras, El Salvador and Southern Mexico (Yucatan, Campeche, Quintana Roo Tabasco and Chiapas).
Mayan history is broken into three periods:
·         Formative or Pre-classic - 2000 B.C. until A.D. 300
·         Classic - 300 until 900
·         Post-classic - 900 until the Spanish Inquisition in the 1400s

Mesoamericans began writing during the mid-Pre-classic period. The Mayans were the first to keep any sort of historical record, and the beginnings of the calendar were born. The Mayans used stelae, or stone monuments, to carve their civil events, calendars and astronomy knowledge. They also inscribed their religious beliefs and mythology on pottery.
The Mayans placed great value in recording their people's history. While they weren't the first civilization to ever use a calendar, they did devise four separate calendars that lasted for discrete time periods. Depending on their needs, the Mayans used different calendars or some combination of two calendars to record each event. Their Long Count calendar, which we'll learn about in more detail later, expires in 2012, leading some to believe that it coincides with an apocalyptic event.
But in order to decipher these different calendars, you'll first need a brief lesson in Mayan math.

Dr. Homi Jehnagir Bhabha

Dr. Homi Jehnagir Bhabha

Dr. Homi Jehnagir Bhabha was a famous Indian atomic scientist and a nuclear physicist. Homi Jehnagir Bhabha is popularly considered as the father of nuclear programme of the country. He laid the foundation of a scientific establishment in India with the help of Jawaharlal Nehru. Dr. Homi Jehnagir Bhabha was also responsible for the creation of two leading institutions namely Tata Institute of Fundamental Research and Bhabha Atomic Research Centre.

Early Life of Dr. Homi Jehnagir Bhabha
Dr. Homi Jehnagir Bhabha, an Indian nuclear physicist of Parsi-Zoroastrian heritage was born on 30th of October, 1909 in
Mumbai. His father Jahangir Bhabha was an ex-Oxford University student and a reputed advocate who served the Tata Enterprises. His mother`s name was Meheran and she belonged to the petit family. His grandfather served as an officer in the Education Department of Mysore State. Dr. Homi Jehangir Bhabha with his super active brain and rapid flow of thoughts at the age of 15 was capable of understanding Einstein`s book on `Relativity`. Bhabha was educated at the Cathedral and John Cannon High School. At the age of 15, Bhabha passed the Senior Cambridge Examination. Later he entered Elphinstone College and the Royal Institute of Science, Mumbai. He was very interested in studying Physics. But to respect his father`s wish he left India for Cambridge to study Engineering. Bhabha passed the Mechanical Engineering in the first class in 1930. He then pursued his studies in Theoretical Physics as a Research Scholar. Dr. Bhabha was an exceptionally bright student. Even as a student, he made some fundamental discoveries in electricity, magnetism, quantum theory and the cosmic rays.

Higher Education and Research of Dr. Homi Jehnagir Bhabha
He had secured many scholarships. In 1932, Dr. Bhabha was awarded the Rouse Ball Travelling Studentship for two years. He worked with W. Pouli in Zurich and Enrico Fermi in Rome. During this period he was awarded the Isaac Newton Fellowship in 1934 and the1851-Exhibition Studentship in 1936. Bhabha also came into close contact with famous scientists like Rutherford, Dirac, Niels Bohr and Heitler. Paul Dirac greatly influenced Bhabha during his study of Mechanical Engineering at Cambridge; to pursue an education in theoretical physics. This association greatly influenced his research and way of life.


Contributions of Dr. Homi Jehnagir Bhabha
Dr. Homi Jehnagir Bhabha enriched the world of Physics with his unique contribution `Bhabha-Heitler Cascade Theory`. With Heitler Bhabha presented the `Cascade Theory of Electron Showers`, in 1937. It explains the course of electron showers in cosmic rays. This research brought fame to Bhabha. Cosmic rays are primary rays, which are fast moving and sub-microscopic particles. They comprise protons, electrons and gamma rays. When some of them happen to approach the earth and enter its atmosphere, they collide with atoms in the air. They then raise new nuclear particles. Bhabha`s new theory explains clearly the processes and effects of the mutual reaction. It throws light on one of the most puzzling mysteries of cosmic rays. He recognised heavy electron particles in cosmic rays and called them `Meson`. Bhabha`s mastery of mathematics can be seen in the `Classical Theory of Spinning Particles`. The significance of his work received wide recognition. Bhabha`s original contributions to Physics lie in the fields of cosmic radiation, theory of elementary particles and quantum theory.

Dr. Homi Jehnagir Bhabha returned to India for a holiday in 1939 during the time of the Second World War. Bhabha did not return to England and this was indeed fortunate for India. Bhabha decided to devote his life to the service of his motherland. In 1940 Bhabha joined the Indian Institute of Science as Reader in Theoretical Physics. He ushered the responsibility of building a new department to undertake research on cosmic rays. In 1941 he was elected a member of the Royal Society when he was only 31. Bhabha became a professor in the Indian Institute of Science in 1942. The University of Cambridge also awarded the `Adams Prize` to him.

Bhabha was invited to join the staff of Oxford University. But he did not accept the invitation as his desire to build an excellent institution of research in India. He dreamt of building a modern India. Analyzing the socio- economic problems of the country he was quite convinced that science was the only means for the progress of India. However, equipments and facilities needed for research in Atomic Physics were not available in the country in those days. Bhabha wrote a letter to the Dorabji Tata Trust on March 13, 1944. Bhabha`s plan was a basic stage from which a school of physics was born. His letter clearly illustrates his far-sightedness and patriotism as it was written almost a year before the atom bombs fell on Hiroshima and Nagasaki.

The Tata Trust founded the - `Tata Institute of Fundamental Research` in 1945. The
Government of India gave financial support to the Institute. Dr. Bhabha was appointed its first Director, and he took the responsibility of shaping the institute. India thus took the first step on the journey of nuclear science. J. R. D Tata and Jawaharlal Nehru gave support and encouragement to Dr. Bhabha in his work. Pandit Nehru appreciated his efficiency, farsightedness and patriotism. One of his greatest achievements was that he persuaded the government to take greater interest in technology. He established the Atomic Energy Commission of India in the year 1948. It was largely due to his efforts that the nation`s first Atomic research Centre, now known Bhabha Atomic Research Center, was established at Trombay, near Mumbai.

In Geneva in the year 1955, Dr. Homi Jehnagir Bhabha represented the country in International Atomic Energy Forums, and as President of United Nations Conference on the Peaceful Uses of Atomic Energy. The conference was another step in international cooperation. Bhabha was the first to advocate, from international forums, the peaceful uses of atomic energy. He realised that the consumption of energy was rapidly increasing. On the other hand, naturally available resources of energy were on the decrease. Added to this, there is shortage of hydel energy in certain places. Realizing this, Bhabha declared that atomic energy is the only foundation for the progress of industries in India. He suggested that producing electricity could affect economy by nuclear methods. The construction of India`s first atomic power plant began at Tarapur,
Maharashtra in 1963. Two years later a plutonium plant was installed. On May 18, 1974, India conducted its first nuclear explosion for peaceful purposes, at Pokran in, Rajasthan and joined the galaxy of nations with atomic energy. India`s explosion of a nuclear device is a great milestone in the path of technological progress. This achievement was based entirely on Indian effort.

In 1963 Dr. Bhabha was elected as the President of the National Institute of Sciences of India. Bhabha was a member of many scientific advisory committees of the United Nations and the International Atomic Energy Agency. He also served as the Chairman of the Scientific Advisory Committee to advise the Government of India.

Awards for Dr. Homi Jehnagir Bhabha
Laurels came to Dr. Homi Jehnagir Bhabha from all corners of the world throughout his lifetime. He was awarded honorary doctorates by several Indian and foreign universities. Among these universities are London, Cambridge, Padova, Perth, Banaras,
Agra, Patna, Lucknow, Allahabad, Andhra Pradesh and Aligarh. In 1948 he received the Hopkins Prize of the Cambridge Philosophical Society. He was elected the President of the Indian Science Congress in 1951. In 1954, he was conferred with the prestigious Padma Bhushan Award for his outstanding contribution to nuclear science. He was an honorary fellow of many earned institutions.

During his stay in England and Europe, painting became his hobby, which reflects his inborn taste and a creative urge for art. He visited many art galleries, museums, palaces and gardens. He never missed a good musical concert. Many of his paintings now grace the walls of art galleries in England. Bhabha`s love for classical music, dance and sculpture was also deep. Devotion to art and the study of science went hand in hand in his life. In the death of Dr. Bhabha India lost an eminent scientist. Bhabha was going to attend an international conference. The Air India flight in which Bhabha was travelling crashed on January 24, 1966 at Mount Blanc. Bhabha thus met with a tragic end.

As a practical person Dr. Homi Jehnagir Bhabha believed in planning and in executing the plans. His far sightedness, powers of organisation, and the encouragement and guidance young scientists received from him these built up an invaluable asset for scientific work in India. Science and art both enriched his mind and life. As a tribute to Dr. Bhabha, the Atomic Energy Establishment, Trombay, was renamed as the Bhabha Atomic Research Center, on 12th of January, 1967.