Latest Current Affairs & General Knowledge Questions With Answers On Feb-2011

Hello Readers ::: Here are some latest General Knowledge & Current Affair Questions. These are Feb-2011 months latest questions

CURRENT AFFAIRS
1. United Nations Climate Change Conference 2010 is of?cially referred to as the … session of the Conference of Parties to the United Nations Framework Convention on Climate Change.
a. 18th
b. 17th
c. 16th
d. 15th

2. Neutrino Observatory (INO) project is located near which of the following hills?
a. Anamalai Hills
b. Nilgiri Hills
c. Khasi Hills
d. Patkai Hills

3. Where was ? rst the Asia–Europe Meeting (ASEM) summit held?
a. Thailand
b. Malaysia
c. India
d. Pakistan

4. Who has been awarded the Nobel Prize for medicine 2010?
a. Richard Heck
b. Ei-ichi Negishi
c. Akira Suzuki
d. Robert Edwards

5. Ajay Jayaram is a well known … player.
a. Badminton
b. Golf
c. Tennis
d. Hockey

6. Toxic red sludge, a waste product from making which metal, burst out of a Hungarian factory’s reservoir reached Danube River of Europe?
a. Copper
b. Aluminum
c. Lithium
d. Rubidium

7. Who authored Aunt Julia and the Scriptwriter?
a. Ruskin Bond
b. Mario Vargas
c. Jonathan
d. None of these

8. Suresh Tendulkar is associated with …
a. Prime Minister’s Relief Fund
b. Telecom Regulatory Au- thority of India
c. UN
d. None of these

9. Omkar Singh and Anisa Sayyed are associated with which of the following games?
a. Hockey
b. Basketball
c. Shooting
d. Cricket

10. With which company would you associate Partha S. Bhattacharyya?
a. Coal India Limited
b. NTPC
c. IOC
d. Bharat Electronics Limited

11. Robert Edwards shares an association with?
a. Physics
b. Chemistry
c. Biology
d. Mathematics

12. The total number of medals that India has won in Common Wealth Games 2010 is …
a. 101
b. 102
c. 103
d. 105

13. Which of the following is a Tennis Player?
a. Dan Carter
b. Greg Jones
c. Johnny Weissmuller
d. None of these

14. H. R. Bhardwaj is the governor of …
a. Karnataka
b. Kerala
c. Tamil Nadu
d. Andra Pradesh

15. Who has been awarded the Nobel Economics Prize2010?
a. Peter Granger
b. Jilly Cooper
c. Dale Mortensen
d. None of these

16. Jaitapur nuclear power plant is in which city?
a. Ratnagiri
b. Nagpur
c. Pune
d. Mumbai

17. Russian Prime Minister Vladimir Putin ? agged off the construction of which space centre?
a. Vostochny Space Center
b. Vladimir Space Center
c. Hioto Space Center
d. None of these

18. Who is the State Chief Information Commissioner of Chennai?
a. Hiren Singh
b. R. K. Narayan
c. Vinod Joshi
d. K. S. Sripathi

19. Who is known as the “Father of the Green Revolution in India”?
a. Norman Ernest Borlaug
b. M. S. Swaminathan
c. J. S. Thomson
d. None of these

20. Burning Bright: Irom Sharmila and the Struggle for Peace in Manipur has been written by …
a. Arundhati Ray
b. Deepti Priya Mehrotra
c. Shivani Jain
d. None of these

21. South Korean Pohang-class cor-vette sank because of which of the following torpedoes?
a. Wang Geon
b. Ulchi Mundok
c. Cheonan
d. None of these

22. Naoto Kan, the Prime Minister of Japan was preceded by …
a. Yukio Hatoyama
b. Yon Ki
c. Chiang Zell
d. Yukoto Ziang

23. Srikumar Banerjee is associated with which of the following?
a. Atomic Energy Commission
b. Bhaba Atomic Research Centre
c. Defence Research And Development Organisation
d. None of these

24. Who built the Brihadishwara Temple?
a. Rajaraja
b. Vengi
c. Rajendra Chola
d. None of these

25. Sutlej River originates from?
a. India
b. China
c. Pakistan
d. None of these

26. Pallavan Double Plus and Pallavan Muthusaram RD are deposit schemes that belong to …
a. Indian Bank
b. Bank of Baroda
c. State Bank of India
d. Allahabad Bank

27. Indian Constituent Assembly adopted the design of Indian National ?ag on?
a. August 23, 1947
b. September 13, 1947
c. August 15, 1947
d. July 22, 1947

28. The Indian National Anthem was sung for the ? rst time in …
a. 1910
b. 1911
c. 1947
d. 1945

29. National fruit of India is?
a. Apple
b. Sugarcane
c. Orange
d. Mango

30. When was the 42nd Amendment of the Constitution adopted?
a. 1970
b. 1972
c. 1974
d. 1976

31. Who elects the Vice President of India?
a. Members of Parliament
b. Members of Lok Sabha
c. Only b
d. Both a and b

32. Department of Agricultural Research and Education comes under the Ministry of …
a. Commerce and Industry
b. Agriculture
c. Commerce and Industry
d. Food Processing Industries

33. An insurance plan, ‘JiyoFit’, has been launched by …
a. HDFC standard life
b. Bharti AXA
c. LIC
d. Bajaj Allianz

34. Where is the National Institute of Smart Government located?
a. Hyderabad
b. Mumbai
c. Pune
d. Chennai

35. Defender Z+ is a …
a. Locker
b. Fighter plane
c. Car
d. Motorbike

36. Asia’s 1st EPZ was set up at …
a. Kandla
b. Delhi
c. Falta
d. Noida

37. In which year was the Integrated Defence Staff formed?
a. 1959
b. 1961
c. 1981
d. 2001

38. How many Integrated Test Ranges does DRDO have?
a. 1
b. 2
c. 3
d. 4

39. The Integrated Education for Disabled Children scheme was launched in …
a. 1954
b. 1965
c. 1974
d. 1991

40. When was the Rural Electri? -cation Corporation Limited incorporated as a Company under Companies Act, 1956?
a. 1969
b. 1971
c. 1989
d. 1991

41. Fort William is located in …
a. Chennai
b. Goa
c. Kolkata
d. Mysore

42. The Indian Tennis player who turned to Hollywood ?lmmaking is …
a. Leander Paes
b. N. Night Shyamlan
c. Vijay Amritraj
d. Ashok Amritraj

43. Tritum is an isotope of …
a. Nitrogen
b. Oxygen
c. Hydrogen
d. Phosphorous

44. In which country would you buy things using Lira?
a. Germany
b. Italy
c. USA
d. Myanmar

45. What does the acronym cc in an email mean?
a. Character conversion
b. Column code
c. Carbon Copy
d. Computer control

46. “Love” is associated with which of the following games?
a. Tennis
b. Horse riding
c. Lawn ball
d. Billiards

47. Which country will host the Commonwealth Games 2014?
a. Australia
b. Srilanka
c. Scotland
d. Canada

48. The Vrindavan Gardens are located in…
a. Mathura
b. Manali
c. Mysore
d. Mohali

49. For measuring the diameter of a thin wire, you would use …
a. Screw driver
b. Screw gauge
c. Screw metre
d. Measuring tape

50. El sueño del celta has been written by …
a. Pablo Neruda
b. Shakespeare
c. Mario Llosa
d. None of these

ANSWERS
CURRENT AFFAIRS
1. c. 16th
2. b. Nilgiri Hills
3. a. Thailand
4. d. Robert Edwards
5. a. Badminton
6. b. Aluminum
7. b. Mario Vargas
8. a. Prime Minister’s Relief Fund
9. c. Shooting
10. a. Coal India Limited
11. c. Biology
12. a. 101
13. b. Greg Jones
14. a. Karnataka
15. d. None of these
16. a. Ratnagiri
17. a. Vostochny Space Center
18. d. K.S. Sripathi
19. a. Norman Ernest Borlaug
20. b. Deepti Priya Mehrotra
21. c. Cheonan
22. a. Yukio Hatoyama
23. b. Bhaba Atomic Research Centre
24. a. Rajaraja
25. b. China
26. a. India Bank
27. d. 22nd July 1947
28. b. 1911
29. d. Mango
30. d. 1976
31. d. Both a and b
32. b. Agriculture
33. d. Bajaj Allianz
34. a. Hyderabad
35. a. Locker
36. a. Kandla
37. d. 2001
38. b. 2
39. c. 1974
40. a. 1969
41. c. Kolkata
42. c. Vijay Amritraj
43. c. Hydrogen
44. b. Italy
45. c. Carbon copy
46. a. Tennis
47. c. Scotland
48. c. Mysore
49. b. Screw guage
50. c. Mario Llosa

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Posted in: CURRENT AFFAIRS , gk , Question and Answers , tes'

Poems for Kids

Happy Birthday

I've got a lot of presents
that I'd like to give to you.
I'll give you all my Brussels sprouts
and all my liver too.
 
I'll give you all my gym socks
when they really start to stink.
I'll give you all my pens when
they are running out of ink.

I'll give you all my broken toys
and empty jars of paste.
I'll give you all my bubble gum
that's chewed and lost its taste.

I'll give you all the dust balls that
I found beneath my bed.
I'll give you all my batteries
as soon as they are dead.

So have a happy birthday,
you're a special friend indeed,
and please accept this trashcan
full of stuff that I don't need.

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Posted in: Education

Scientific Explanation of Common Phenomena

1. It is dangerous to sleep in an unventilated room with fire burning inside because the fire produces carbon monoxide and carbon dioxide gases. Carbon monoxide is poisonous and can cause death.

2. The filament of an electric bulb is made of tungsten because it has a high melting point and can be heated to a high temperature to emit light.

3. Water kept in an earthen pitcher becomes cold because the pitcher has minute pores on its surface which absorb water. Water in the pores evaporates when it comes in contact with air, and produces a cooling effect.

4. A sliced apple, when exposed to air, turns brown after some time as it contains iron which gets oxidised and gives the fruit a brownish colour.

5. The freezing compartment inside a refrigerator is at the top because the air in contact with it becomes cold and heavy and sinks downwards, cooling the rest of the compartment. 

6. A copper vessel left in the air for a long time turns green. This is due to the formation of copper carbonate when copper reacts with carbon dioxide and moisture present in the air.

7. A wick in a stove keeps burning continuously as kerosene rises in the wick due to capillary action.

8. The Earth rotates on its axis from west to east. This rotation makes the sun and the stars appear to be moving across the sky from east to west.

9. The sky appears blue because the light of the sun is spread or scattered by the dust particles in the air. In space the sky would appear black as there are no dust or air particles to scatter the light.

10. Food is cooked quickly in a pressure cooker because the boiling point of water increases at high pressure. Food cooks faster at high temperature. 


11. In mountainous regions, the atmospheric pressure is less than it is at seal level water, therefore, boils at a lower temperature(less than 100° C) and food takes more time to cook.

12. When ice floating in a glass of water melts, the level of water remains unchanged because as a solid, ice displace an equal volume of water.

13. A man weigh more at the poles than at the equator because the polar radius of the Earth is less than the equatorial radius .Hence the gravitational pull is more at the poles than at the equator.

14. Standing in double-decker buses, particularly on the upper floor, is not allowed because on tilting, the centre of gravity of the bus gets changed and it is likely to overturn.

15. The boiling point of seawater will be more than the boiling point of pure water because the former contains salt and other impurities.

16. An ordinary clock loses time in summer because the length of its pendulum increases, and therefore, its time period also increases. The pendulum takes more time to complete each oscillation and thus loses time.

17. Whenever there is water loss from the body, secretion of saliva is reduced resulting in dryness of the mouth and stimulating the sensation of thirst. Intake of fluid then helps in restoring the loss of the water.

18. A swimmer just out of the river feels cold particularly if it is windy, because of the evaporation of water from his body surface. The evaporation is more on a windy day.

19. Alcohol is sometimes rubbed on the body of a person suffering from fever. As soon as it is applied on the body, it evaporates taking away some heat from the body. Since evaporation has a cooling effect, the body temperature can be reduced by rubbing alcohol.

20. Soft iron is used as an electromagnet because it remains a magnet only while the current passes through the coil around it and loses its magnetism when the current is switched off. 


21. The person jumping out of a moving train is carried forward in the direction of the train because the person himself is in motion sharing the velocity of the train and will continue in its state of uniform motion unless it exercises some force to prevent it (Newton’s first law of motion).

22. A lightning conductor is fixed to tall buildings to protect them from the destructive effects of the lightning.

23. An electric bulb makes a bang when it is broken because there is a vacuum inside the electric bulb; when the bulb is broken air rushes in at great speed from all sides to fill the vacuum. The rushing of air produces a noise generally referred to as the “bang”.

24. A small space is left between each set of two rails of railway line to allow for their expansion in summer.

25. A bad egg floats in water because the up-thrust produced on account of displaced water by the immersed portion of the bad egg is greater than the weight of the egg.

26. Moisture gather on the outer surface of a glass tumbler containing cold water because the water vapors present in the air get cooled and appear as droplets of water on coming in contact with the cold surface of the glass tumbler.

27. The launching of Earth satellites should be from a place near the equator to take the fullest advantage of the earth’s movements. The regions of the Earth closer to the equator.

28. We experience difficulty in breathing on mountains because the pressure of the air out side is less as compared to the pressure of the pressure of air in side the lungs.

29. If a highly corked glass bottle full of water is left out of doors on a frosty night and convert into ice. There is no room available for the increased volume and this may result in bursting of the bottle.

30. Water extinguishes fire because as it evaporates, the temperature of the burning body is lowered, thus retarding or stopping the burning action also the resulting vapour surround the burning substance cutting off the oxygen supply thus inhibiting the burning process. In fact hot water will extinguish fire more quickly than cold water as hot water will vaporize faster. 

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Posted in: Science and Technology

How Fingerprint Scanners Work ?

Introduction to How Fingerprint Scanners Work
Computerized fingerprint scanners have been a mainstay of spy thrillers for decades, but up until recently, they were pretty exotic technology in the real world. In the past few years, however, scanners have started popping up all over the place -- in police stations, high-security buildings and even on PC keyboards. You can pick up a personal USB fingerprint scanner for less than $100, and just like that, your computer's guarded by high-tech biometrics. Instead of, or in addition to, a password, you need your distinctive print to gain access.

In this article, we'll examine the secrets behind this exciting development in law enforcement and identity security. We'll also see how fingerprint scanner security systems stack up to conventional password and identity card systems, and find out how they can fail.

Fingerprint Basics

Fingerprints are one of those bizarre twists of nature. Human beings happen to have built-in, easily accessible identity cards. You have a unique design, which represents you alone, literally at your fingertips. How did this happen?
People have tiny ridges of skin on their fingers because this particular adaptation was extremely advantageous to the ancestors of the human species. The pattern of ridges and "valleys" on fingers make it easier for the hands to grip things, in the same way a rubber tread pattern helps a tire grip the road.

 

The other function of fingerprints is a total coincidence. Like everything in the human body, these ridges form through a combination of genetic and environmental factors. The genetic code in DNA gives general orders on the way skin should form in a developing fetus, but the specific way it forms is a result of random events. The exact position of the fetus in the womb at a particular moment and the exact composition and density of surrounding amniotic fluid decides how every individual ridge will form.

 

So, in addition to the countless things that go into deciding your genetic make-up in the first place, there are innumerable environmental factors influencing the formation of the fingers. Just like the weather conditions that form clouds or the coastline of a beach, the entire development process is so chaotic that, in the entire course of human history, there is virtually no chance of the same exact pattern forming twice.

 

Consequently, fingerprints are a unique marker for a person, even an identical twin. And while two prints may look basically the same at a glance, a trained investigator or an advanced piece of software can pick out clear, defined differences.

 

This is the basic idea of fingerprint analysis, in both crime investigation and security. A fingerprint scanner's job is to take the place of a human analyst by collecting a print sample and comparing it to other samples on record.

 

 

Optical Scanner

A fingerprint scanner system has two basic jobs -- it needs to get an image of your finger, and it needs to determine whether the pattern of ridges and valleys in this image matches the pattern of ridges and valleys in pre-scanned images.
There are a number of different ways to get an image of somebody's finger. The most common methods today are optical scanning and capacitance scanning. Both types come up with the same sort of image, but they go about it in completely different ways.

 

The heart of an optical scanner is a charge coupled device (CCD), the same light sensor system used in digital cameras and camcorders. A CCD is simply an array of light-sensitive diodes called photosites, which generate an electrical signal in response to light photons. Each photosite records a pixel, a tiny dot representing the light that hit that spot. Collectively, the light and dark pixels form an image of the scanned scene (a finger, for example). Typically, an analog-to-digital converter in the scanner system processes the analog electrical signal to generate a digital representation of this image. See How Digital Cameras Work for details on CCDs and digital conversion.

 

The scanning process starts when you place your finger on a glass plate, and a CCD camera takes a picture. The scanner has its own light source, typically an array of light-emitting diodes, to illuminate the ridges of the finger. The CCD system actually generates aninverted image of the finger, with darker areas representing more reflected light (the ridges of the finger) and lighter areas representing less reflected light (the valleys between the ridges).

 

Before comparing the print to stored data, the scanner processor makes sure the CCD has captured a clear image. It checks the average pixel darkness, or the overall values in a small sample, and rejects the scan if the overall image is too dark or too light. If the image is rejected, the scanner adjusts the exposure time to let in more or less light, and then tries the scan again.

 

If the darkness level is adequate, the scanner system goes on to check the image definition (how sharp the fingerprint scan is). The processor looks at several straight lines moving horizontally and vertically across the image. If the fingerprint image has good definition, a line running perpendicular to the ridges will be made up of alternating sections of very dark pixels and very light pixels.

 

If the processor finds that the image is crisp and properly exposed, it proceeds to comparing the captured fingerprint with fingerprints on file. We'll look at this process in a minute, but first we'll examine the other major scanning technology, the capacitive scanner.

 

 

 

Capacitance Scanner

Like optical scanners, capacitive fingerprint scanners generate an image of the ridges and valleys that make up a fingerprint. But instead of sensing the print using light, the capacitors use electrical current.

The diagram below shows a simple capacitive sensor. The sensor is made up of one or more semiconductor chips containing an array of tiny cells. Each cell includes two conductor plates, covered with an insulating layer. The cells are tiny -- smaller than the width of one ridge on a finger.

 

 

The sensor is connected to an integrator, an electrical circuit built around an inverting operational amplifier. The inverting amplifier is a complex semiconductor device, made up of a number of transistors, resistors and capacitors. The details of its operation would fill an entire article by itself, but here we can get a general sense of what it does in a capacitance scanner. (Check out this page on operational amplifiers for a technical overview.)

 

Like any amplifier, an inverting amplifier alters one current based on fluctuations in another current (see How Amplifiers Work for more information). Specifically, the inverting amplifier alters a supply voltage. The alteration is based on the relative voltage of two inputs, called the inverting terminal and the non-inverting terminal. In this case, the non-inverting terminal is connected to ground, and the inverting terminal is connected to a reference voltage supply and a feedback loop. The feedback loop, which is also connected to the amplifier output, includes the two conductor plates.

 

As you may have recognized, the two conductor plates form a basic capacitor, an electrical component that can store up charge (see How Capacitors Work for details). The surface of the finger acts as a third capacitor plate, separated by the insulating layers in the cell structure and, in the case of the fingerprint valleys, a pocket of air. Varying the distance between the capacitor plates (by moving the finger closer or farther away from the conducting plates) changes the total capacitance (ability to store charge) of the capacitor. Because of this quality, the capacitor in a cell under a ridge will have a greater capacitance than the capacitor in a cell under a valley.

 

To scan the finger, the processor first closes the reset switch for each cell, which shorts each amplifier's input and output to "balance" the integrator circuit. When the switch is opened again, and the processor applies a fixed charge to the integrator circuit, the capacitors charge up. The capacitance of the feedback loop's capacitor affects the voltage at the amplifier's input, which affects the amplifier's output. Since the distance to the finger alters capacitance, a finger ridge will result in a different voltage output than a finger valley.

 

The scanner processor reads this voltage output and determines whether it is characteristic of a ridge or a valley. By reading every cell in the sensor array, the processor can put together an overall picture of the fingerprint, similar to the image captured by an optical scanner.

 

The main advantage of a capacitive scanner is that it requires a real fingerprint-type shape, rather than the pattern of light and dark that makes up the visual impression of a fingerprint. This makes the system harder to trick. Additionally, since they use a semiconductor chip rather than a CCD unit, capacitive scanners tend to be more compact that optical devices. 

 

 

Analysis

In movies and TV shows, automated fingerprint analyzers typically overlay various fingerprint images to find a match. In actuality, this isn't a particularly practical way to compare fingerprints. Smudging can make two images of the same print look pretty different, so you're rarely going to get a perfect image overlay. Additionally, using the entire fingerprint image in comparative analysis uses a lot of processing power, and it also makes it easier for somebody to steal the print data.

Instead, most fingerprint scanner systems compare specific features of the fingerprint, generally known as minutiae. Typically, human and computer investigators concentrate on points where ridge lines end or where one ridge splits into two (bifurcations). Collectively, these and other distinctive features are sometimes called typica.

 

The scanner system software uses highly complex algorithms to recognize and analyze these minutiae. The basic idea is to measure the relative positions of minutiae, in the same sort of way you might recognize a part of the sky by the relative positions of stars. A simple way to think of it is to consider the shapes that various minutia form when you draw straight lines between them. If two prints have three ridge endings and two bifurcations, forming the same shape with the same dimensions, there's a high likelihood they're from the same print.

 

To get a match, the scanner system doesn't have to find the entire pattern of minutiae both in the sample and in the print on record, it simply has to find a sufficient number of minutiae patterns that the two prints have in common. The exact number varies according to the scanner programming.

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Posted in: Science and Technology

LCD TV-The Good And The Bad

The Good about LCD TV

An LCD TV is very thin and light and therefore great to save space. Anyone who has an LCD monitor for their desktop computer will relate. Remember the large chunky one ones we used to all have? That is what a standard television set is like now. Along with great picture quality there is almost not static image burn-in problems because the fluorescent backlight is filtered by the liquid crystal in solid state.

The TV lasts a life time or for as long as 50,000 to 80,000 hours claimed by manufacturers. This outshines the plasma whose life expectancy is much less. These TVs will last as long as the backlight can produce white light. The backlight can be changed out too so they are extremely good value in that regard. It can also be doubled up for use with a computer of any kind. Most computers monitors are LCD anyway.

LCD’s are economical meaning they are good for the environment. LCD TVs use less power than Plasma TV's or CRT TV's and in some cases less than half the power!

The Bad about LCD TV

They are not currently available in the larger sizes greater than 40". When made in larger sizes, they are more expensive than plasmas. The use of filters and a white backlight can reduce the quality of a true red green and blue output. Blacks look more like dark grays because some of the white light always passes through.

There is a possibility for reduced angle of vision. As the white light passes directly through an LCD pixel and the nature of polarizing filters, the viewing angle is decreased. You will notice loss of quality for blacks and colors at angles greater 20 degrees off axis.

To be fair I think the good outweighs the bad and they are extremely good value for money compared to the plasmas unless of course you want a really big screen.

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Posted in: Science and Technology

A new Earth -Astronomers find a planet similar to our own.

Astronomers have spotted evidence of a second Earth being built around a distant star 424 light-years away. Using NASA's Spitzer Space Telescope, astronomers have spotted a huge belt of warm dust swirling around a young star called HD 113766 that is just slightly larger than our sun. The dust belt, which scientists suspect is clumping together to form planets, is located in the middle of the star system's terrestrial habitable zone where temperatures are moderate enough to sustain liquid water. Scientists estimate there is enough material in the belt to form a Mars-sized world or larger.

At approximately 10 million years old, the star is just the right age for forming rocky planets, the researchers say. Their finding will be detailed in an upcoming issue of Astrophysical Journal.

"The timing for this system to be building an Earth is very good," said study team member Carey Lisse, of the Johns Hopkins University Applied Physics Laboratory in Baltimore, Md.

If the star system were too young, the planet-forming disk would be full of gas, and it would be making gas-giant planets like Jupiter instead. If it was too old, Spitzer would have spotted rocky planets that had long ago formed.

The star system also has the right mix of dusty materials in its disk to form an Earth-like planet, Lisse said.

Using Spitzer's infrared spectrometer instrument, the team determined that the material around HD 113766 is more processed than the snowball-like stuff that makes up infant solar systems and comets, which are considered cosmic "refrigerators" because they contain pristine ingredients from the solar system's formative period. But it is also not as processed as the stuff found in mature planets and asteroids.

"The material mix in this belt is most reminiscent of the stuff found in lava flows on Earth," Lisse said. "I thought of Mauna Kea [in Hawaii] material when I first saw the dust composition in this system – it contains raw rock and it's abundant in iron sulfides, which are similar to fool's gold."

Earlier this year, scientists announced they had discovered one, and possibly two, already formed Earth-like planets around Gliese 581, a dim red star located only 20.5 light-years away. The planets, called Gliese 581c and Gliese 581d, are located at about the right distance from their star to support liquid water and life as we know it, but many more observations are needed to confirm this.

Source: Ker Than(Staff Writer)SPACE.com

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Posted in: information technology , science

History Of Indian Emperor (King) Harshavardhan

Harshavardhana was an Indian Emperor, who ruled over the northern parts of India for a period of more than forty years. His empire was spread over the states of Punjab, Bengal, Orissa and the entire Indo-Gangetic plain, lying to the north of the Narmada River. Get more information of the life history of King Harsha Vardhan with this biography:

King Harshavardhana was born in 590 BC to Prabhakar Vardhan. His elder brother was Rajyavardhan, the king of Thanesar. He was instrumental in consolidating the small republics and small monarchical states that had sprung up in North India after the downfall of the Gupta dynasty. Harsha Vardhan united the small republics from Punjab to Central India and they accepted him as their king in 606 AD. Though Harsha was only sixteen years old when he ascended the throne, he proved himself to be a great vanquisher as well as a competent administrator.

After his accession, King Harshavardhan united the two kingdoms of Thanesar (now Kurukshetra) and Kannauj. He also shifted his capital from Thanesar to Kannauj. The next aggression faced by the king was from Sasanka, the ruler of Bengal. He defeated Sasanka and also took over Eastern Punjab (present day Haryana), Bengal, Bihar and Orissa. Thereafter, he occupied Dhruvasena and Ganjam, a part of the modern Orissa State. In 630 BC, Harshavardhana faced defeat at the hands of Pulakesi II, the Chalukya King of Vatapi, in Northern Karnataka. The defeat resulted in a truce between the two kings, with Harsha accepting River Narmada as the southern boundary for his kingdom.

Patronizing Buddhism and Literature
King Harshavardhan was a Shaivite. However, he was tolerant towards all other religions and supported them fully. Some time later in his life, he became a patron of Buddhism also. King Harshavardhana propagated the religion by constructing numerous stupas in the name of Buddha. He believed in supporting art and literature and even made several donations to the Nalanda University. Harsha Vardhana also wrote three Sanskrit plays, namely Nagananda, Ratnavali and Priyadarsika. In 641 BC, he sent a mission to China, which helped in establishing the first diplomatic relations between China and India.

Death of Harsha
King Harshavardhana left for the holy abode in the year 647 AD, after ruling over the Indian subcontinent for more than 41 years. However, since he did not have any heirs, his empire rapidly disintegrated and collapsed into small states again.

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Posted in: india , Indian history