January 2011 ~ Unreal Mad

Monday, January 31, 2011

Top 10 Natural Disaster

The earth’s weather is very mysterious. One day it is sunny the next it is raining. In fact, sometimes as you are driving down the road, you hit the “wall” between a sunny day and a sever thunderstorm. Man has spent years trying to predict weather patterns but it is still an inexact science. This is a list of the most common occurring disasters of nature:

A landslide is a disaster involving elements of the ground, including rocks, trees, parts of houses, and anything else which may happen to be swept up. Landslides can be caused by an earthquake, volcanic eruptions, or general instability in the surrounding land. Mudslides or mudflows, are a special case of landslides, in which heavy rainfall causes loose soil on steep terrain to collapse and slide downwards.

2.Avalanche

An avalanche is a geophysical hazard involving a slide of a large snow or rock mass down a mountainside, caused when a buildup of material is released down a slope, it is one of the major dangers faced in the mountains in winter. As avalanches move down the slope they may entrain snow from the snowpack and grow in size. The snow may also mix with the air and form a powder cloud. An avalanche with a powder cloud is known as a powder snow avalanche. The powder cloud is a turbulent suspension of snow particles that flows as a gravity current.

3.Drought

A drought is an extended period of months or years when a region suffers a severe deficiency in its water supply. Generally, this occurs when a region receives consistently below average rainfall. It can have a substantial impact on the ecosystem and agriculture of the affected region. Although droughts can persist for several years, even a short, intense drought can cause significant damage and harm the local economy.

4.Wildfire

Wildfires, or forest fires, are uncontrolled fires burning in wildland areas. Common causes include lightning, human carelessness, arson, volcano eruption, and pyroclastic cloud from active volcano. The can be a threat to those in rural areas and also to wildlife. Wildfires can also produce ember attacks, where floating embers set fire to buildings at a distance from the fire itself.

5. Flood

A flood is an overflow of an expanse of water that submerges land, a deluge. It is usually due to the volume of water within a body of water, such as a river or lake, exceeding the total capacity of the body, and as a result some of the water flows or sits outside of the normal perimeter of the body. It can also occur in rivers, when the strength of the river is so high it flows right out of the river channel , usually at corners or meanders.

5.Tsunami

A tsunami is a series of waves created when a body of water, such as an ocean, is rapidly displaced. Earthquakes, mass movements above or below water, volcanic eruptions and other underwater explosions, landslides, large meteorite impacts comet impacts and testing with nuclear weapons at sea all have the potential to generate a tsunami. A tsunami is not the same thing as a tidal wave, which will generally have a far less damaging effect than a Tsunami.

6.Volcanic eruption

A volcanic eruption is the point in which a volcano is active and releases lava and poisonous gasses in to the air. They range from daily small eruptions to extremely infrequent supervolcano eruptions (where the volcano expels at least 1,000 cubic kilometers of material.) Some eruptions form pyroclastic flows, which are high-temperature clouds of ash and steam that can travel down mountainsides at speeds exceeding that of an airliner.

7.Tornado

Tornadoes are violent, rotating columns of air which can blow at speeds between 50 and 300 mph, and possibly higher. Tornadoes can occur one at a time, or can occur in large tornado outbreaks along squall lines or in other large areas of thunderstorm development. Waterspouts are tornadoes occurring over water in light rain conditions.

2. Earthquake

An earthquake is the result of a sudden release of energy in the Earth’s crust that creates seismic waves. Earthquakes are recorded with a seismometer, also known as a seismograph. The magnitude of an earthquake is conventionally reported on the Richter scale, with magnitude 3 or lower earthquakes being mostly imperceptible and magnitude 7 causing serious damage over large areas. Intensity of shaking is measured on the modified Mercalli scale. At the Earth’s surface, earthquakes manifest themselves by shaking and sometimes displacement of the ground.

1. Hurricane

Hurricanes, tropical cyclones, and typhoons are different names for the same phenomenon: a cyclonic storm system that forms over the oceans. It is caused by evaporated water that comes off of the ocean and becomes a storm. The Coriolis Effect causes the storms to spin, and a hurricane is declared when this spinning mass of storms attains a wind speed greater than 74 mph. Hurricane is used for these phenomena in the Atlantic and eastern Pacific Oceans, tropical cyclone in the Indian, and typhoon in the western Pacific.
1.Landslide

1.Landslide

2.Avalanche

3.Drought

4.Wildfire

5. Flood

5.Tsunami

6.Volcanic eruption

7.Tornado

2. Earthquake

1. Hurricane

3D Paintings

Julian Beever is an English artist who is famous for his art on the pavements of England, France, Germany, USA, Australia and Belgium. Its peculiarity? Beever gives his drawings an anamorphosis view, his images are drawn in such a way which gives them three dimensionality when viewing from the correct angle. It's amazing !!!
You must see this amazing pictures!!!

Top 10 Funny Haircuts

10.Red Mustache on the Head

9.happy face on the head

8.Backward Hair Cut

Awesome funny picture! They did such a good job on this haircut that it took me a second to figure out what was going on. Very original cut!

7.Beehive Hairstyle

6.Close Encounter with a Lawn Mower

5.Football Hair Style

4.Hair - Flower Power

3.Handy Hairstyle for Boys

2.Spiky Hairstyle

1.Tufty Hairstyle

Black Holes in Space

A black hole is a region of space in which the gravitational field is so powerful that nothing, not even light, can escape its pull after having fallen past its event horizon. The term "Black Hole" comes from the fact that, at a certain point, even electromagnetic radiation (e.g. visible light) is unable to break away from the attraction of these massive objects. This renders the hole's interior invisible or, rather, black like the appearance of space itself.

Despite its interior being invisible, a black hole may reveal its presence through an interaction with matter that lies in orbit outside its event horizon. For example, a black hole may be perceived by tracking the movement of a group of stars that orbit its center. Alternatively, one may observe gas (from a nearby star, for instance) that has been drawn into the black hole. The gas spirals inward, heating up to very high temperatures and emitting large amounts of radiation that can be detected from earthbound and earth-orbiting telescopes. Such observations have resulted in the general scientific consensus that—barring a breakdown in our understanding of nature—black holes do exist in our universe.

The idea of an object with gravity strong enough to prevent light from escaping was proposed in 1783 by the Reverend John Michell, an amateur British astronomer. In 1795, Pierre-Simon Laplace, a French physicist independently came to the same conclusion. Black holes, as currently understood, are described by the general theory of relativity. This theory predicts that when a large enough amount of mas is present in a sufficiently small region of space, all paths through space are warped inwards towards the center of the volume, preventing all matter and radiation within it from escaping.

While general relativity describes a black hole as a region of empty space with a pointlike singularity at the center and an event horizon at the outer edge, the description changes when the effects of quantum mechanics are taken into account. Research on this subject indicates that, rather than holding captured matter forever, black holes may slowly leak a form of thermal energy called Hawking radiation. However, the final, correct description of black holes, requiring a theory of quantum mechanics / gravity

The term black hole to describe this phenomenon dates from the mid-1960s, though its precise origins are unclear. Physicist John Wheeler is widely credited with coining it in his 1967 public lecture Our Universe: the Known and Unknown, as an alternative to the more cumbersome "gravitationally completely collapsed star". However, Wheeler himself insisted that the term had actually been coined by someone else at the conference and adopted by him as a useful shorthand. The term was also cited in a 1964 letter by Anne Ewing to the AAA:

According to Einstein’s general theory of relativity, as mass is added to a degenerate star a sudden collapse will take place and the intense gravitational field of the star will close in on itself. Such a star then forms a "black hole" in the universe.

The phrase had already entered the language years earlier as the Black hole of Calcutta incident of 1756 in which 146 Europeans were locked up overnight in punishment cell of barracks at Fort William by Siraj-ud-Daulah, and all but 23 perished.

Popular accounts commonly try to explain the black hole phenomenon by using the concept of escape velocity, the speed needed for a vessel starting at the surface of a massive object to completely clear the object's gravitational field. It follows from Newton's law of gravity that a sufficiently dense object's escape velocity will equal or even exceed the speed of light. Citing that nothing can exceed the speed of light they then infer that nothing would be able to escape such a dense object. However, the argument has a flaw in that it doesn't explain why light would be affected by a gravitating body or why it would not be able to escape. Nor does it give a satisfactory explanation for why a powered spaceship would not be able to break free.

Two concepts introduced by Albert Einstein are needed to explain the phenomenon. The first is that time and space are not two independent concepts, but are interrelated forming a single continuum, spacetime. This continuum has some special properties. An object is not free to move around spacetime at will, instead it must always move forwards in time, and not only must an object move forwards in time, it also cannot change its position faster than the speed of light. This is the main result of the theory of special relativity.

The second concept is the base of general relativity: mass deforms the structure of this spacetime. The effect of a mass on spacetime can informally be described as tilting the direction of time towards the mass. As a result, objects tend to move towards masses. This is experienced as gravity. This tilting effect becomes stronger as the distance to the mass becomes smaller. At some point close to the mass the tilting becomes so strong that all the possible paths an object can take lead towards the mass. This implies that any object that crosses this point can no longer get further away from the mass, not even using powered flight. This point is called the event horizon.

According to the "No hair theorem" a black hole has only three independent physical properties: mass , charge and angular momentum. Any two black holes that share the same values for these properties are completely indistinguishable. This contrasts with other astrophysical objects such as stars, which have very many—possibly infinitely many—parameters. Consequently, a great deal of information is lost when a star collapses to form a black hole. Since in most physical theories information is (in some sense) preserved, this loss of information in black holes is puzzling. Physicists refer to this as the black hole information paradox.

The "No Hair" theorem does make some assumptions about the nature of our universe and the matter it contains. Other assumptions would lead to different conclusions. For example, if nature allows magnetic monopoles to exist—which appears to be theoretically possible, but has never been observed—then it should also be possible for a black hole to have a magnetic charge. If the universe has more than four dimensions (as string theories, a controversial but apparently possible class of theories, would require), or has a global anti-de siter structure, the theorem could fail completely, allowing many sorts of "hair". But in our apparently four-dimensional, very nearly flat universe, the theorem should hold.

Dr. APJ ABDUL KALAM

Dr. Avul Pakir Jainulabdin Abdul Kalam served as the 11th president of India from the period 2002 to 2007. He is a man of vision, who is always full of ideas aimed at the development of the country and is often also referred to as the Missile Man of India. People loved and respected Dr. APJ ABDUL KALAM

Abdul Kalam was born on 15 October 1931 at Rameswaram, Dhanushkodi, in the state of Tamil Nadu, to a middle class Tamil Muslim family. He got his degree in “aeronautical engineering” from the Madras Institute of Technology in 1958. After graduation, he joined India’s Defence Research and Development Organization (DRDO) to work on a hovercraft project. In 1962, Dr. Abdul Kalam moved to the Indian Space Research Organization (ISRO), where he done more successful jobs and most important that his team launched several satellites successfully. He made a significant contribution as Project Director to develop India’s first indigenous Satellite Launch Vehicle (SLV-III). Something of Kalam’s probable views on certain can be surmised from positions espoused by him in the past. His book India 2020 strongly advocates an action plan to develop India into a knowledge superpower and into a developed view that India ought to take a more assertive stance in international relations; he apparently regards his work on India’s nuclear weapons program as a way to assert India’s place as a future superpower.

Kalam continues to take an active interest in other developments in the field of science and technology as well. He has proposed a research programmed for developing bio-implants. He is a supporter of pen source software over proprietary solutions and believes that the use of open source software on a large scale will bring more people the benefits of Information Technology. Kalam has been the subject of vicious criticism from leftists in the Indian press, praful Bidwai being among his staunchest critics. Dr. APJ Abdul Kalam

Kalam observes strict personal discipline, practicing vegetarianism, teetotalism and celibacy. Kalam is scholar of Tirukkual, in most of his speeches; he quotes at least one Kural. Kalam has written several inspirational books, most notably his autobiography Wings of fire, aimed at motivating Indian youth. Another of his books guiding Souls: Dialogues on the purpose of Life reveals his spiritual side. so much during his tenure as President that was popularly called the people’s President. regards his work on India’s nuclear weapons program as a way to assert India’s place as a future superpower. Even during his tenure as president, APJ Kalam took avid interest in the spheres of India’s science and technology. He has even put forward a project plan for establishing bio-implants. He is also an ardent advocate of open source software over proprietary solutions to churn out more profits in the field of information technology in India.

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