Sachin becomes first batsman to score 200 in an ODI

The capacity crowd at the Captain Roop Singh Stadium witnessed history on Wednesday as Tendulkar, statistically the greatest batsman the game has ever seen, pushed a Charl Langeveldt delivery through the off-side and ran a single to achieve a feat which no other cricketer has achieved.

One-day international cricket, since its 1971 inception, had to wait nearly four decades to see a batsman score 200. The previous best mark was shared by Zimbabwean Charles Coventry (194 not out against Bangladesh in 2009) and Pakistan's Saeed Anwar (194 against India in 1997).

As the crowd erupted with unbridled joy, Tendulkar, tired but composed, took off his helmet, looked skyward, closed his eyes to offer a silent prayer.

His captain Mahendra Singh Dhoni came down from the striker's end to shake hands and hug him.

And as Tendulkar set on his way back to the pavilion after the completion of the Indian innings, a tumultuous celebration greeted him.

The crowd gave him a standing ovation as the entire stadium erupted in euphoria while his teammates were simply ecstatic as they clapped and hugged each other, basking in the glory of their senior teammates.

Tendulkar batted like a man with a mission on Wednesday and the South African bowlers simply had no clue where to bowl.

Once he crossed the 150-mark, the crowd anticipated something special and Tendulkar did not let them down.

A six off Roelof van der Merwe took him past Kapil Dev's 175 not out and in the next over, he hit Jacques Kallis for a four to equal his previous best of 186 not out that had come against New Zealand in Hyderabad in 1999.

The crowd got restless as Tendulkar approached the 194-run mark and a couple off Wayne Parnell saw him eclipse it.

His teammates and spectators were on the edge of their seat with a double century round the corner but with Dhoni going berserk at the striker's end and facing most of the deliveries, it was an agonising wait for all.

Dhoni took singles off the final deliveries of the 47th-49th overs and Tendulkar finally took strike with four balls left in the innings.

The first ball he received from Langeveldt was steered past point and Tendulkar ran for a single to remain unbeaten after an unforgettable unbeaten 200 that came off just 147 balls with 25 fours and three sixes in it.

It was yet another milestone for the man, who has some 30,000 international runs under his belt, including 93 centuries (47 in Tests and 46 in ODIs).
Highest score in ODIs
Player

Runs

Balls

4s

6s

Against

Ground

Date








Sachin Tendulkar

200*

147

25

3

South Africa

Gwalior

Feb 24, 2010
CK Coventry

194*

156

16

7

Bangladesh

Bulawayo

Aug 16, 2009
Saeed Anwar

194

146

22

5

India

Chennai

May 21, 1997
Sir Viv Richards

189*

170

21

5

England

Manchester

May 31, 1984
Sanath Jayasuriya

189

161

21

4

India

Sharjah

Oct 29, 2000
Gary Kirsten

188*

159

13

4

UAE

Rawalpindi

Feb 16, 1996
Sachin Tendulkar

186*

150

20

3

New Zealand

Hyderabad

Nov 8, 1999
MS Dhoni

183*

145

15

10

Sri Lanka

Jaipur

Oct 31, 2005
Sourav Ganguly

183

158

17

7

Sri Lanka

Tounton

May 26, 1999
Mathew Hayden

181*

166

11

10

New Zealand

Hamilton

Feb 20, 2007

PAZHASSIRAJA[2009]-DISCUSSIONS & THEATRE REPORTS

Pazhassi Raja is a forthcoming biopic magnum opus historical film directed by T. Hariharan, and written by M.T. Vasudevan Nair. It stars Mammootty, Manoj K. Jayan, Thilakan, Padmapriya and Sarath Kumar in the lead roles with Kanika Subramaniam, Peter Handley Evans, Harry Key, and Jagathi Sreekumar in other pivotal roles. The film's score and soundtrack is written by acclaimed composer Illayaraja. The score was recorded in Hungary, with the prestigious Hungary Symphony Orchestra. The sound designing is done by Oscar Award Winner, Resul Pookutty. The film will subsequently be dubbed and released in Tamil, Telugu and Hindi on the same date.
The Sepoy Mutiny of 1857 is considered to be the first organized revolt against British rule and as the first step in India's struggle for independence. But more than half a century prior to that, Kerala Varma Pazhassi Raja of the Padinjare Kovilakom of the Kottayam family, irked by the unpopular revenue policy followed by the East India Company in Malabar, threatened to cut down all the pepper vines if the Company persisted in revenue collection. A determined but futile attempt was made by the British to capture the Raja in his own palace at Pazhassi in April 1796.

Subsequently a proclamation was issued forbidding people from supporting the Raja, threatening confiscation of their property if they did so. In January 1797 the Raja's men launched daring attack on the security personnel stationed at Pazhassi, exterminating the entire party save one. In pitched battles fought over three days, the Raja's men using swords, spears, bows and arrows, overpowered the British forces armed with muskets. The British had to sign a temporary truce.

When the occupying forces broke the terms of the truce, the Raja revolted again, but by then the British had control over most of the south. The Raja, accompanied by his wife and immediate attendants, took refuge in the jungles. In 1804 the Raja's properties were confiscated and a reward was proclaimed for his head. Towards the end of 1805, the Raja was surrounded and shot dead by the side of a stream.

Hariharan, MT Vasudevan Nair and Mammootty, the people behind Oru Vadakkan Veeragaatha, an epoch making film that became a milestone in Malayalam cinema, are in the making of another epic, which is to hit the screens during the Christmas season. The film, which is being shot with a Pan Vision camera and exploits the latest technical advancements, has Mammootty playing the lead role of Pazhassi Raja. Tamil actor Sarath Kumar makes his debut in Malayalam with this film, playing Edachena Kunkan, the best friend of Pazhassi Raja.
Narrated by...

* Mohanlal (Malayalam)
* Kamal Haasan (Tamil)
* Shahrukh Khan (Hindi)
* Chiranjeevi (Telugu)



Directed by T. Hariharan
Produced by Gokulam Gopalan
Written by M. T. Vasudevan Nair

Starring Mammootty
Mammootty as Kerala Varma Pazhassi Raja
Sarath Kumar as Edachena Kunkan
Padmapriya Janakiraman as Neeli
Kanika Subramaniam as Kaitheri Makkom
Suman as Pazhayamveedan Chandhu
Manoj K. Jayan as Thalakkal Chandhu
Thilakan as Kurumbranaadu Raja Veeravarma
Jagathy Sreekumar as Kanara Menon
Nedumudi Venu as Moopan
Linda Arsenio as Dora
Suresh Krishna as Kaitheri Ambu
Devan as Kannavathu Nambiar
Lalu Alex as Emman Nair
Captain Raju as Unni Mootha
Jagadeesh as Bhandari
Peter Handley Evans as Major James Gordon
Harry Key as Thomas Hervey Baber

Music by Ilaiyaraaja
Cinematography Ramanath Shetty
Editing by A.Sreekar Prasad
Release date(s) October 16, 2009
Country India
Language Malayalam,Tamil,Telungu,Hindi and English
Budget INR 27 Crores

Moon

The Moon is Earth's only natural satellite and the fifth largest satellite in the Solar System. The average centre-to-centre distance from the Earth to the Moon is 384,403 kilometres (238,857 mi), about thirty times the diameter of the Earth. The common centre of mass of the system (the barycentre) is located at about 1,700 kilometres (1,100 mi)—a quarter the Earth's radius—beneath the surface of the Earth. The Moon makes a complete orbit around the Earth every 27.3 days[nb 3] (the orbital period), and the periodic variations in the geometry of the Earth–Moon–Sun system are responsible for the phases of the Moon, which repeat every 29.5 days[nb 4] (the synodic period).

The Moon's diameter is 3,474 kilometres (2,159 mi),[5] a little more than a quarter of Earth's. Thus, the Moon's surface area is less than a tenth of the Earth (about a quarter of Earth's land area), and its volume is about 2 percent that of Earth. The pull of gravity at its surface is about 17 percent of that at the Earth's surface.

The Moon is the only celestial body on which human beings have made a manned landing. While the Soviet Union's Luna programme was the first to reach the Moon with unmanned spacecraft, the United States' NASA Apollo program achieved the only manned missions to date, beginning with the first manned lunar mission by Apollo 8 in 1968, and six manned lunar landings between 1969 and 1972–the first being Apollo 11 in 1969. Human exploration of the Moon temporarily ceased with the conclusion of the Apollo program, although a few robotic landers and orbiters have been sent to the Moon since that time. The U.S. had committed to return to the Moon by 2018,[6][7][8] however that commitment has been put into jeopardy by the proposed 2011 budget, which will cancel Constellation, NASA's project to send humans back to the moon by 2020. On November 13, 2009, NASA announced the discovery of proof that water exists on the Moon, based on data obtained from the LCROSS lunar impact mission.[9]

The Moon is in synchronous rotation, which means it rotates about its axis in about the same time it takes to orbit the Earth. This results in it nearly always keeping the same face turned towards the Earth. The Moon used to rotate at a faster rate, but early in its history, its rotation slowed and became locked in this orientation as a result of frictional effects associated with tidal deformations caused by the Earth.[13]

Small variations (libration) in the angle from which the Moon is seen allow about 59% of its surface to be seen from the Earth (but only half at any instant).[5]

The dark and relatively featureless lunar plains which can clearly be seen with the naked eye are called maria (singular mare), Latin for seas, since they were believed by ancient astronomers to be filled with water. These are now known to be vast solidified pools of ancient basaltic lava. The majority of these lavas erupted or flowed into the depressions associated with impact basins that formed by the collisions of meteors and comets with the lunar surface. (Oceanus Procellarum is a major exception in that it does not correspond to a known impact basin.) Maria are found almost exclusively on the near side of the Moon, with the far side having only a few scattered patches covering about 2% of its surface,[14] compared with about 31% on the near side.[5] The most likely explanation for this difference is related to a higher concentration of heat-producing elements on the near-side hemisphere, as has been demonstrated by geochemical maps obtained from the Lunar Prospector gamma-ray spectrometer.[15][16] Several provinces containing shield volcanoes and volcanic domes are found within the near side maria.[17]

Terrae
The lighter-colored regions of the Moon are called terrae, or more commonly just highlands, since they are higher than most maria. Several prominent mountain ranges on the near side are found along the periphery of the giant impact basins, many of which have been filled by mare basalt. These are hypothesized to be the surviving remnants of the impact basin's outer rims.[18] In contrast to the Earth, no major lunar mountains are believed to have formed as a result of tectonic events.[19]

From images taken by the Clementine mission in 1994, it appears that four mountainous regions on the rim of the 73 km-wide Peary crater at the Moon's north pole remain illuminated for the entire lunar day. These peaks of eternal light are possible because of the Moon's extremely small axial tilt to the ecliptic plane. No similar regions of eternal light were found at the south pole, although the rim of Shackleton crater is illuminated for about 80% of the lunar day. Other consequences of the Moon's small axial tilt are regions that remain in permanent shadow at the bottoms of many polar craters.[20]

The dark and relatively featureless lunar plains which can clearly be seen with the naked eye are called maria (singular mare), Latin for seas, since they were believed by ancient astronomers to be filled with water. These are now known to be vast solidified pools of ancient basaltic lava. The majority of these lavas erupted or flowed into the depressions associated with impact basins that formed by the collisions of meteors and comets with the lunar surface. (Oceanus Procellarum is a major exception in that it does not correspond to a known impact basin.) Maria are found almost exclusively on the near side of the Moon, with the far side having only a few scattered patches covering about 2% of its surface,[14] compared with about 31% on the near side.[5] The most likely explanation for this difference is related to a higher concentration of heat-producing elements on the near-side hemisphere, as has been demonstrated by geochemical maps obtained from the Lunar Prospector gamma-ray spectrometer.[15][16] Several provinces containing shield volcanoes and volcanic domes are found within the near side maria.[17]

Terrae
The lighter-colored regions of the Moon are called terrae, or more commonly just highlands, since they are higher than most maria. Several prominent mountain ranges on the near side are found along the periphery of the giant impact basins, many of which have been filled by mare basalt. These are hypothesized to be the surviving remnants of the impact basin's outer rims.[18] In contrast to the Earth, no major lunar mountains are believed to have formed as a result of tectonic events.[19]

From images taken by the Clementine mission in 1994, it appears that four mountainous regions on the rim of the 73 km-wide Peary crater at the Moon's north pole remain illuminated for the entire lunar day. These peaks of eternal light are possible because of the Moon's extremely small axial tilt to the ecliptic plane. No similar regions of eternal light were found at the south pole, although the rim of Shackleton crater is illuminated for about 80% of the lunar day. Other consequences of the Moon's small axial tilt are regions that remain in permanent shadow at the bottoms of many polar craters.[20]

The dark and relatively featureless lunar plains which can clearly be seen with the naked eye are called maria (singular mare), Latin for seas, since they were believed by ancient astronomers to be filled with water. These are now known to be vast solidified pools of ancient basaltic lava. The majority of these lavas erupted or flowed into the depressions associated with impact basins that formed by the collisions of meteors and comets with the lunar surface. (Oceanus Procellarum is a major exception in that it does not correspond to a known impact basin.) Maria are found almost exclusively on the near side of the Moon, with the far side having only a few scattered patches covering about 2% of its surface,[14] compared with about 31% on the near side.[5] The most likely explanation for this difference is related to a higher concentration of heat-producing elements on the near-side hemisphere, as has been demonstrated by geochemical maps obtained from the Lunar Prospector gamma-ray spectrometer.[15][16] Several provinces containing shield volcanoes and volcanic domes are found within the near side maria.[17]

Terrae
The lighter-colored regions of the Moon are called terrae, or more commonly just highlands, since they are higher than most maria. Several prominent mountain ranges on the near side are found along the periphery of the giant impact basins, many of which have been filled by mare basalt. These are hypothesized to be the surviving remnants of the impact basin's outer rims.[18] In contrast to the Earth, no major lunar mountains are believed to have formed as a result of tectonic events.[19]

From images taken by the Clementine mission in 1994, it appears that four mountainous regions on the rim of the 73 km-wide Peary crater at the Moon's north pole remain illuminated for the entire lunar day. These peaks of eternal light are possible because of the Moon's extremely small axial tilt to the ecliptic plane. No similar regions of eternal light were found at the south pole, although the rim of Shackleton crater is illuminated for about 80% of the lunar day. Other consequences of the Moon's small axial tilt are regions that remain in permanent shadow at the bottoms of many polar craters.[20]

The Great Wall of China (simplified Chinese: 长城; traditional Chinese: 長城; pinyin: Chángchéng; literally "long city/fortress") or (simplified Chinese: 万里长城; traditional Chinese: 萬里長城; pinyin: Wànlǐ Chángchéng; literally "The long wall of 10,000 Li (里)"[1]) is a series of stone and earthen fortifications in northern China, built, rebuilt, and maintained between the 5th century BC and the 16th century to protect the northern borders of the Chinese Empire during various successive dynasties. Since the 5th century BC, several walls have been built that were referred to as the Great Wall. One of the most famous is the wall built between 220–206 BC by the first Emperor of China, Qin Shi Huang. Little of that wall remains; the majority of the existing wall were built during the Ming Dynasty.

The Great Wall stretches from Shanhaiguan in the east to Lop Nur in the west, along an arc that roughly delineates the southern edge of Inner Mongolia. The most comprehensive archaeological survey, using advanced technologies, has recently concluded that the entire Great Wall, with all of its branches, stretches for 8,851.8 km (5,500.3 mi). This is made up of 6,259.6 km (3,889.5 mi) of sections of actual wall, 359.7 km (223.5 mi) of trenches and 2,232.5 km (1,387.2 mi) of natural defensive barriers such as hills and rivers.[2][3][4]
The Chinese were already familiar with the techniques of wall-building by the time of the Spring and Autumn Period, which began around the 8th century BC. During the Warring States Period from the 5th century BC to 221 BC, the states of Qi, Yan and Zhao all constructed extensive fortifications to defend their own borders. Built to withstand the attack of small arms such as swords and spears, these walls were made mostly by stamping earth and gravel between board frames. Qin Shi Huang conquered all opposing states and unified China in 221 BC, establishing the Qin Dynasty. Intending to impose centralized rule and prevent the resurgence of feudal lords, he ordered the destruction of the wall sections that divided his empire along the former state borders. To protect the empire against intrusions by the Xiongnu people from the north, he ordered the building of a new wall to connect the remaining fortifications along the empire's new northern frontier. Transporting the large quantity of materials required for construction was difficult, so builders always tried to use local resources. Stones from the mountains were used over mountain ranges, while rammed earth was used for construction in the plains. There are no surviving historical records indicating the exact length and course of the Qin Dynasty walls. Most of the ancient walls have eroded away over the centuries, and very few sections remain today. Later, the Han, Sui, Northern and Jin dynasties all repaired, rebuilt, or expanded sections of the Great Wall at great cost to defend themselves against northern invaders.

The Great Wall concept was revived again during the Ming Dynasty following the Ming army's defeat by the Oirats in the Battle of Tumu in 1449. The Ming had failed to gain a clear upper-hand over the Manchurian and Mongolian tribes after successive battles, and the long-drawn conflict was taking a toll on the empire. The Ming adopted a new strategy to keep the nomadic tribes out by constructing walls along the northern border of China. Acknowledging the Mongol control established in the Ordos Desert, the wall followed the desert's southern edge instead of incorporating the bend of the Huang He.


Photograph of the Great Wall in 1907Unlike the earlier Qin fortifications, the Ming construction was stronger and more elaborate due to the use of bricks and stone instead of rammed earth. As Mongol raids continued periodically over the years, the Ming devoted considerable resources to repair and reinforce the walls. Sections near the Ming capital of Beijing were especially strong.[citation needed]

During the 1440s–1460s, the Ming also built a so-called "Liaodong Wall". Similar in function to the Great Wall (whose extension, in a sense, it was), but more basic in construction, the Liaodong Wall enclosed the agricultural heartland of the Liaodong province, protecting it against potential incursions by Jurched-Mongol Oriyanghan from the northwest and the Jianzhou Jurchens from the north. While stones and tiles were used in some parts of the Liaodong Wall, most of it was in fact simply an earth dike with moats on both sides.[5]

Towards the end of the Ming Dynasty, the Great Wall helped defend the empire against the Manchu invasions that began around 1600. Under the military command of Yuan Chonghuan, the Ming army held off the Manchus at the heavily fortified Shanhaiguan pass, preventing the Manchus from entering the Chinese heartland. The Manchus were finally able to cross the Great Wall in 1644, when the gates at Shanhaiguan were opened by Wu Sangui, a Ming border general who disliked the activities of rulers of the Shun Dynasty. The Manchus quickly seized Beijing, and defeated the newly founded Shun Dynasty and remaining Ming resistance, to establish the Qing Dynasty.

In 2009, an additional 290 kilometres (180 miles) of previously undetected portions of the wall, built during the Ming Dynasty, were discovered. The newly discovered sections range from the Hushan mountains in the northern Liaoning province to Jiayuguan in western Gansu province. The sections had been submerged over time by sandstorms that moved across the arid region.[6]

Under Qing rule, China's borders extended beyond the walls and Mongolia was annexed into the empire, so construction and repairs on the Great Wall were discontinued.

Mammootty

Mohandas Karamchand Gandhi

Mohandas Karamchand Gandhi (Hindi: मोहनदास करमचंद गाँधी, Gujarati: મોહનદાસ કરમચંદ ગાંધી, pronounced [moːɦən̪d̪aːs kərəmʨən̪d̪ ɡaːn̪d̪ʱiː] ( listen); 2 October 1869 – 30 January 1948) was the pre-eminent political and spiritual leader of India during the Indian independence movement. He was the pioneer of satyagraha—resistance to tyranny through mass civil disobedience, a philosophy firmly founded upon ahimsa or total nonviolence—which led India to independence and inspired movements for civil rights and freedom across the world. Gandhi is commonly known around the world as Mahatma Gandhi (Sanskrit: महात्मा mahātmā or "Great Soul", an honorific first applied to him by Rabindranath Tagore),^[1] and in India also as Bapu (Gujarati: બાપુ, bāpu or "Father"). He is officially honoured in India as the Father of the Nation; his birthday, 2 October, is commemorated there as Gandhi Jayanti, a national holiday, and worldwide as the International Day of Non-Violence.

Gandhi first employed non-violent civil disobedience while an expatriate lawyer in South Africa, during the resident Indian community's struggle for civil rights. After his return to India in 1915, he organized protests by peasants, farmers, and urban labourers concerning excessive land-tax and discrimination. After assuming leadership of the Indian National Congress in 1921, Gandhi led nationwide campaigns to ease poverty, expand women's rights, build religious and ethnic amity, end untouchability, and increase economic self-reliance. Above all, he aimed to achieve Swaraj or the independence of India from foreign domination. Gandhi famously led his followers in the Non-cooperation movement that protested the British-imposed salt tax with the 400 km (240 mi) Dandi Salt March in 1930. Later, in 1942, he launched the Quit India civil disobedience movement demanding immediate independence for India. Gandhi spent a number of years in jail in both South Africa and India.

As a practitioner of ahimsa, he swore to speak the truth and advocated that others do the same. Gandhi lived modestly in a self-sufficient residential community and wore the traditional Indian dhoti and shawl, woven with yarn he had hand spun on a charkha. He ate simple vegetarian food, eventually adopting a fruitarian diet, and also undertook long fasts as a means of both self-purification and social protest.

Albert Einstein

Albert Einstein (pronounced /ˈælbərt ˈaɪnstaɪn/; German: [ˈalbɐt ˈaɪ̯nʃtaɪ̯n] ( listen); 14 March 1879–18 April 1955) was a theoretical physicist, philosopher and author who is widely regarded as one of the most influential scientists and intellectuals of all time. His many contributions to physics include the special and general theories of relativity, the founding of relativistic cosmology, the first post-Newtonian expansion, explaining the perihelion advance of Mercury, prediction of the deflection of light by gravity and gravitational lensing, the first fluctuation dissipation theorem which explained the Brownian movement of molecules, the photon theory and wave-particle duality, the quantum theory of atomic motion in solids, the zero-point energy concept, the semiclassical version of the Schrödinger equation, and the quantum theory of a monatomic gas which predicted Bose–Einstein condensation.

Einstein is best known for his theories of special relativity and general relativity. He received the 1921 Nobel Prize in Physics “for his services to Theoretical Physics, and especially for his discovery of the law of the photoelectric effect.”^[3]

Einstein published more than 300 scientific and over 150 non-scientific works.^[4] Einstein additionally wrote and commentated prolifically on numerous philosophical and political issues. He is often regarded as the father of modern physics.^[5]