Friday, 13 September 2013

Pasadena: The spacecraft's technology was laughable by today's standards: It carried an 8-track tape recorder and computers with 240,000 times less memory than a low-end iPhone. When it left Earth 36 years ago, it was designed as a four-year mission to Saturn, and everything after that was gravy.

But Voyager I has become - unexpectedly - the Little Spacecraft That Could. On Thursday, scientists declared that it had become the first man-made object to exit the solar system, a breathtaking achievement that NASA could only fantasize about back when it was launched in 1977, the same year that "Star Wars" was released.

File:Voyager.jpg



"I don't know if it's in the same league as landing on the moon, but it's right up there - 'Star Trek' stuff, for sure," said Donald A. Gurnett, a professor of physics at the University of Iowa and the co-author of a paper published Thursday in the journal Science about Voyager's feat. "I mean, consider the distance. It's hard even for scientists to comprehend."




Even among planetary scientists, who tend to dream large, the idea that something they built could travel so far for so long and pierce the sun's reach is an impressive one. Plenty of telescopes gaze at the far parts of the Milky Way, but Voyager 1 can now touch and feel this unexplored region and send back detailed dispatches. Given the distance, it takes about 17 hours for Voyager's signals to reach NASA's Jet Propulsion Laboratory here.


"This is historic stuff, a bit like the first exploration of Earth, and we had to look at the data very, very carefully," said Edward C. Stone, 77, NASA's top Voyager expert, who has been working on the project since 1972.



Ever the stoic scientist, he does get excited about what comes next.



"It's now the start of a whole new mission," he said.



The lonely probe, which is 11.7 billion miles from Earth and hurtling away at 38,000 mph, has long been on the verge of bursting through the heliosphere, a vast, bullet-shaped bubble of particles blown out by the sun. Scientists have spent this year debating whether it had done so, interpreting the data Voyager sent back in different ways.



But now it is official that Voyager 1 passed into the cold, dark and unknown vastness of interstellar space, a place full of dust, plasma and other matter from exploded stars. The article in Science pinpointed a date: Aug. 25, 2012.



"This is the moment we've all been waiting for," Jia-Rui C. Cook, the media liaison at NASA's Jet Propulsion Laboratory, said in an email to a reporter. "I can't even sleep it's so exciting!"



Coincidentally, the same month that Voyager 1 left the solar system, Curiosity, NASA's state-of-the-art rover, landed on Mars and started sending home gorgeous snapshots. Soon afterward, Curiosity's exploration team, some 400 strong, dazzled the world by driving the $2.5 billion robot across a patch of Martian terrain, a feat that turned the Red Bull-chugging engineers and scientists of Building 264 of the Jet Propulsion Laboratory campus into rock stars.




A spoof video, "We're NASA and We Know It," recorded to the beat of the song "Sexy And I Know It," generated 2.8 million views on YouTube.



Voyager, meanwhile, stopped sending home pictures in 1990, to conserve energy. In its heyday, it pumped out never-before-seen images of Jupiter and Saturn, but lately there has not been much to see.

File:Voyager Golden Record fx.png
Voyager's Golden Record: Will be useful in the event when the spacecraft is ever found by intelligent life-forms from other planetary systems. The discs carry photos of the Earth and its lifeforms, a range of scientific information, spoken greetings from people such the Sec-General of the UN and US President and a medley, "Sounds of Earth", that includes the sounds of whales, a baby crying, waves breaking on a shore, and a collection of music including works by Mozart. 



As the mission lost its sizzle, its 12-person staff was booted from the laboratory's campus and sent to cramped quarters down the street next to a McDonald's. Suzanne R. Dodd, the Voyager project manager, said that when she has attended meetings in Building 264, she has kept a low profile in deference to the Mars team.



"I try to stay out of the elevator and take the stairs," Dodd said. "They're doing important work there, and I'll only slow them down."



Now she and her team seem poised to be back in the spotlight, perhaps for years to come. Stone, vice provost for special projects at the California Institute of Technology and former director of the Jet Propulsion Laboratory, expects Voyager 1 to keep sending back data - with a 23-watt transmitter, about the equivalent of a refrigerator light bulb - until roughly 2025.



Not that the aging spacecraft has made things easy. An instrument that measures the energy of particles in plasma stopped working in 1980. But scientists still have access to a related sensor, a spindly antenna that records electron oscillations in plasma. The catch is that these oscillations don't occur all the time; they typically happen when stirred up by a solar eruption.



Voyager 1's plasma wave antenna picked up audible vibrations in April and May that allowed Gurnett and his colleagues to calculate the density of the plasma around the spacecraft, which would help them determine whether the craft was still in the solar system.



"It was exactly what we expected for interstellar plasma," Gurnett said.



Moreover, by combing through older oscillation data collected by Voyager 1, the team discovered that the edge of the solar system - the threshold that was crossed in late summer of 2012 - was roughly where Gurnett predicted it would be back in 1993 by using different solar storm calculations.



"Am I bragging here? No," he said. "All right. I admit it. It's bragging a little."



As the solar system's edge grew tantalizingly close, NASA asked Dodd and her team to increase the amount of data collection. The problem: 8-track recorders from 1977 are not exactly bursting with extra space. Could she even find anyone who specialized in that piece of recording technology?



"These younger engineers can write a lot of sloppy code, and it doesn't matter, but here, with very limited capacity," said Dodd, "you have to be extremely precise and have a real strategy."



At 52, Dodd is a relative newcomer to Voyager, first working on the mission in 1984, when Voyager 2 - a companion spacecraft also launched in 1977 and still inside the solar system - was headed toward Uranus. But she was able to find her man: Lawrence J. Zottarelli, 77, a retired NASA engineer. He came up with a solution. But would it work?



Zottarelli waited at Voyager mission control one afternoon last month to find out. The first of the newly programmed data dumps was set to come down. Dodd, Stone and Zottarelli watched two old Sun Microsystems computers like children watching for a chick to peck through an egg.



"Nine, eight, seven," Stone counted down.



"Everything's fine," said Zottarelli, flashing a thumbs up and hiking up his trousers. "You're on your own now."



The relief was written all over Dodd's face, too. "It's not easy flying an old spacecraft," she said.



Her eyes moved to Stone, who was peering at a computer through his trifocals.



"There are lots of old missions," he responded, a sly smile taking over his face. "But not many are doing exciting new things."
File:Voyager1 Space simulator.gif


© 2013, The New York Times News Service

Sunday, 8 September 2013

Mumbai is India's financial capital, but this doesn't even begin to describe it. It is the city where dreams come true - it is a city of opportunities. It doesn't matter what your dream is, Mumbai will have something to offer towards its realization. If you want to be a famous actor, Mumbai is the home of Bollywood, if you want to be an entrepreneur, Mumbai has a wonderful business atmosphere, and if your dream is simply to enjoy life at a pace you like - slow or fast, Mumbai is still the way to go. There are countless stories of people rising up from its slums to become some of the most influential people in their fields. From being home to Asia's largest slum to being world's fastest growing cities, Mumbai can show you every colour. Welcome to my India's beloved city - the city where dreams come true. 
Gates to India

Gateway of India(above): Mumbai's most famous monument, this is the starting point for most tourists who want to explore the city. It was built as a triumphal arch to commemorate the visit of King George V and Queen Mary, complete with four turrets and intricate latticework carved into the yellow basalt stone. Ironically, when the Raj ended in 1947, this colonial symbol also became a sort of epitaph: the last of the British ships that set sail for England left from the Gateway. Today this symbol of colonialism has got Indianised, drawing droves of local tourists and citizens. Behind the arch, there are steps leading down to the water. Here, you can get onto one of the bobbing little motor launches, for a short cruise through Mumbai's splendid natural harbour.
Chhatrapati Shivaji train station, Mumbai
Chhatrapati Shivaji Terminus: Shown above is the Historical train station in Mumbai, and also the largest in the city. 
Mumbai, India
The city's architecture was largely influenced by the British and to an extent, by the Portuguese during the 18th and early 19th centuries and much of it has been preserved even till date. Its not very uncommon to find a beautiful cream coloured building with English architecture amidst a contemporary urban setting. 
Mumbai University

Mumbai coastline
The city's skyline is changing fast. Shown here is the Arabian sea coastline of Mumbai with upcoming skyscrapers in the background. Many super tall structures like the Palais Royale and World One are in advanced phases of construction. Many of these buildings when complete, will set new records.
Mumbai Four Seasons Hotel
Four Seasons Hotel with under construction 'Palais Royale' in the background.
Mumbai Four Seasons Hotel
Something unique to Mumbai is the co-existence of slums and skyscrapers together. On one hand it amazes me to think how two economically opposite sections of society exist in such proximity to each other with no egos hurt, and on the other hand its equally tragic to see how uneven the distribution of wealth here is. 
Mumbai Four Seasons Hotel

Mumbai Four Seasons Hotel view of slums      

Mumbai Four Seasons Hotel city view  
Promising downtown and business center of Mumbai.
Mumbai Four Seasons Hotel city view

Mumbai Four Seasons Hotel


Mumbai Mahalaxmi Racecourse

Mahalaxmi Race Course
Mumbai Central

The Imperial, Mumbai

The Imperial Towers (above) which were until recently India's tallest buildings with 240 meters from ground to antennae. 
Palais Royale, Mumbai
Palais Royale (above): Currently the tallest building in Mumbai and in India running 320 meters vertically.
Mumbai Central

Dharavi, Mumbai

Ah! A view from India's...oops, Asia's largest slum - Dharavi. I take pride in introducing it because people here might be poor, but they are a hard working class. They are not beggars, they are people running small businesses many of which have become crucial to this city's growth. Goods made here are exported all over the world with the total turn over expected at 500 million dollars.
Dharavi, Mumbai

Dharavi, Mumbai



   


Sunday, 1 September 2013

Finding aliens is not really all that difficult, you just have to know exactly what should you be on a lookout for in the space. You see, if I were to ask you to find my lost needle somewhere on a football ground, you might...oh well, you sure wont be able to find it. But if i told you that it is within a 1 meter radius from a certain corner of the field, is shiny and is coloured Golden, then of course, your chances increase many fold. Same for the aliens. You have to know exactly which part of the Universe is most suitable for ET exploration, and what must you be looking for in that region. Of course I collected this information from varied sources and if you want to know more, just scroll down to the end of the post and click on the sources. Here you go...I hope after reading this you'll be able to catch a few aliens on your own. Happy Reading!

Universe is Huge. Billions of galaxies and Each galaxy consisting of billions of stars with many of them having planets.

1. Where should I go about finding the small green things with antennae on their head? 

Ah! lets see...Universe is unimaginably vast. It has billions of galaxies and that it is a good thing because the bigger the Universe, bigger will be the probability of existence of planets which can harbour life! But too many galaxies also makes the task of finding aliens tougher as you do not know which places to look first. A new research gives some idea about where should we be looking but in a very indirect way. Scientists suspect that the laws of Physics might not be same throughout the Universe! In astrophysics, there is a constant called "alpha" which measures the strength of electromagnetism. Since it is a constant, its value should be same on Earth, on Alpha Centauri, on Sun, other galaxies - everywhere. But there are suspicions that it might actually be true. After measuring alpha in distant galaxies,it was found out that alpha is not same everywhere! and seems to vary continuously along a preferred axis through the Universe which passes through the Earth,” said Webb, how is researching this phenomenon at the University of South Wales, Australia and is a well known Researcher. If true, imagine what it can mean! It will mean that laws of physics are simply local by-laws! It is like saying Newton's laws might be correct on Earth but not Mars! So, it seems like the Earth, and its cosmic surroundings are "fine tuned" for the existence of life! If it is true that laws of physics vary, then it means that these laws have moulded themselves in just the right way for Earth to support life. So, here is your answer. If you want to find aliens, look at places near Earth, don't do too far away where the laws of physics become unfavourable to support life. Now of course when I say "near Earth" on cosmic scale it can mean a few hundred light years. But hey!...you're looking for aliens, gonna have to work hard of course, they don't grow in backyards. 

Lasers can be powerful tools of communication as well as tools of research. They can travel long distances with little loss of energy. 
2. What should I be looking for? 
I
nternet. Yeah, that's your answer. Sadly AT&T people do not offer inter planetary internet services so they won't help you, but I mean looking for "internet" in a different way. Imagine Earth 300 years from now. Your Grandma lives on Mars, you live on Earth and your sister in law is on Pandora. How will you invite them for your birthday party? Yes, you will use electromagnetic radiations of strong strengths to transmit messages. So if there are aliens, they might also be using some sort of concentrated signals to send messages across the space. That is what you should be looking for. Concentrated electromagnetic signals which are of unusual - artificial origin. Geoffery Marcy, discoverer of the first system of exo-planets can come to your rescue here. After all, all of this "concentrated signal" stuff is his brain child.  Marcy believes that there may be other civilizations in the universe that are years ahead of human society and might currently be communicating with radio signals in a network he calls a “galactic Internet.” Marcy uses advanced telescopes to detect concentrated signals in space. He believes these signals may indicate the existence of another advanced civilization, because nothing in the universe is known to emit such signals. The Templeton Foundation recently granted him $200,000 for his proposal!...How bad it must feel to have 200,000 dollars and not being able to spend it on things you like. Anyway, As more and more Earthlike planets are being discovered, some scientists feel that there is no longer anything “particularly special about Earth” that makes it uniquely conducive to life, according to Andrew Siemion, a project scientist in the UC Berkeley SETI group.
Every year, the program gathers approximately $1 million in funding, which is spread over 10 unique projects, according to Dan Werthimer, director of the UC Berkeley group. Distinct categories each concern a certain range of the electromagnetic wave spectrum, because the researchers cannot be sure at which wavelength other civilizations may be emitting their signals.

Okay so now you know what to look for and where to look for. I have a lot more to share on this topic but I have to go and have dinner. So, some other time. But this should give you a good start! All you need now are some of the biggest telescopes on Earth, super expensive radiation detectors and some clearances to use these equipments. And chips. It can be draining. Al right then, gotta eat!...Godspeed and may the force be with you in your alien hunting.