Here's a Plot of Madagascar 2:Escape To Africa......

The film opens in the past, where Zuba (Bernie Mac), king of the jungle, teaches his infant son, Alakay (Alex) how to protect himself. Alex is trapped by poachers, and Zuba chases the hunters, but loses track of Alex. Alex's crate falls into a river which carries it to the sea. His crate drifts to New York City where he is put on display in the Central Park Zoo.
The movie cuts to the present, picking up where Madagascar left off. Alex, Marty, Melman, and Gloria are boarding an airplane that will be catapulted with a gigantic slingshot. King Julien and Maurice go with them. Midway through the trip, the penguins discover they are out of fuel, but manage a gentle crash landing in an African wildlife reserve. They all disperse and meet their species, while the penguins stay at the crash site and repair the plane.
Alex reunites with his dad Zuba, and mom Florrie (Sherri Shepherd). Zuba's rival Makunga (Alec Baldwin) intends to use Alex so he can steal the throne for himself. Alex is tricked by Makunga into choosing an exceedingly large and muscular lion as an opponent in his right-of-passage trial for membership in the pride. Alex mistakes the test for a dance-off, and is easily defeated. Makunga assumes the throne when Zuba, despite his disappointment with Alex, refuses to banish his son, and is himself banished along with Florrie.
Meanwhile Marty joins a herd of zebras, but discovers that each of the zebras is exactly like him, which makes him question how unique he is. Gloria gossips with other female hippos, and meets Moto Moto (will.i.am) as a potential mate. Melman becomes the giraffe herd's new witch doctor and helps animals with diseases and wounds. His new friends convince him he has "Witch Doctor's Disease" and has only two more days to live. Julian develops a following, particularly from the flamingos.
Alex and Melman talk over their problems with a zebra they think is Marty. Marty arrives and takes offense that Alex cannot tell him from one of his "clones". Gloria tries to warm up to Moto Moto in a secluded pool, but realizes that he is only attracted to her "plumpness". Melman makes the best of his last hours by facing Moto Moto and telling him to take care of Gloria for all the great qualities he himself sees in her, which moves Gloria.
When the waterhole dries up, all the animals panic. Alex sets out to find the location where the water is clogged, and makes up with Marty, who goes with him. They trace it to a dam that New York vacationers had built to support themselves off the reserve after getting lost in the jungle, led by Nana the Old Lady. Alex is caught by the humans, but Zuba rushes in in the nick of time. Alex "intimidates" the humans by performing as he had done in the zoo, and the humans recognize him as the same Alex the Lion from the zoo. Zuba realizes the importance of Alex's gift and joins in with him.
Meanwhile, Julien proposes the animals make a sacrifice to the volcano to bring the water back, and Melman volunteers. Just before he jumps into the volcano, Gloria runs in and asks Melman about his confessions. Marty then arrives, and reports that Alex has been captured by the humans. Gloria and Melman head off the reserve with the Penguins using the repaired airplane. Despite Nana's efforts to defend the dam, the penguins destroy it, and the water is brought back to the waterhole. Simultaneously, Mort arrives at the volcano, pursued by a shark. The shark inadvertently sacrifices himself, falling into the volcano just as the now undammed river restores the water hole. Julien is impressed at how fast the gods respond.
Makunga is removed from the throne, being chased away by Nana after Alex tricks him into taking her handbag. Zuba offers to give Alex the throne, and he accepts. The giraffes discover that their previous witch doctor was only missing (now he returned), and that Melman will not die. Gloria realizes she loves Melman. All four friends decide to stay in Africa with Alex's family, as do Julien and Maurice, while the penguins take off in the plane for Skipper's honeymoon (Skipper married a bobblehead doll found on the plane). The lions and their friends dance off into the sunset.

Nice Study Tour (Part 1)

In this part 1 i'm gonna tell all of ya bout ma 1st day In Malaysia....

This Study Tour is totally wicked....
I've got many experience there...
And of course i got many photos there...
Hehe.....
Here's some of ma pic in ma 1st day.....


(Cha-Cha, Me, Amel and Inyoi in da ferry)













( It's Ricky,Ramos,Ruben and I here...
This is our 1st Resto)










(2gether in Royal Abu Bakar Museum)











(Inyoi, Me and Munich 4 our Dinner...
U know we eat Padang Rice...)















(Sir Kumar, Me, David, and Miss Rosa it's in front of Istana Negara)

















(2gether in National Monument...)












(Amel,Melissa,Ruben,M.n,Me,Ricky,Ramos, and Ryan in our 1st hotel.....Radius
Inn......)




Thanks 4 seeing my blog....
Hope it's interesting...
I'll write da part 2 as soon as possible...
Sorry if there's any mistaken in grammar or Vocab....
_Thanks_

Daily Activities

My daily activity's going to school,take a course,and go to school again...
Btw,
We're going to have a study tour to Malaysia again this year,,
Maybe it's on October...
Hope it'll be different and will be more fun if i'm going there with my friends....

Goddamn
I'm in grade 8 already,,,
Next year gonna do the final test(UAS,UN)

After that i'm in senior high school already...
Then,
I'm gonna go to university....
The truth is I wanna go to Monash University in Malaysia...
But,,
It's hard to go there.
Beside my English isn't very good after all.
So I'm sorry if my english is bad...
I read book about my Brother University book now and then
And i don't understand about 99%..
haha....

So,
that's all....
(YOu'll be boring to read this)

This Week

Oh my god....
This Week...
It's so crazy....
First of all....
I can't logout my friendster in my computer's school.....
Secondly....
My exams are near...
Gotta study...Hate it,,,,,
Third....
It's hot here,,,Hotter than a usual country...
Fourth....
I'm going to Malaysia... Again...
Last year i went there.....2 years ago i went there again....
This June...I'm going to Malaysia....
Beside that....
Next year....
I'm going there again eith my friends...(a study tour)
Damn....
Hope this life can change....
I wanna go to Italy......

Oke....
That's all....
Peace out....

This Week

The latest film that Jay Chou played.

My favorite actor and singer.....
Love his film...

 "I'm Yours"

Well, you done done me and you bet I felt it
I tried to be chill but your so hot that i melted
I fell right through the cracks, and i'm tryin to get back
before the cool done run out i'll be givin it my best test
and nothin's gonna stop me but divine intervention
I reckon it's again my turn to win some or learn some

I won't hesitate no more,
no more, it cannot wait i'm yours

Well open up your mind and see like me
open up your plans and damn you're free
look into your heart and you'll find love love love
listen to the music at the moment maybe sing with me
Ah, la peaceful melody
It's your god forsaken right to be loved loved loved loved Loved

So, i won't hesitate no more,
no more, it cannot wait i'm sure
there's no need to complicate our time is short
this is our fate, i'm yours

*scat*

I've been spendin' way too long checkin' my tongue in the mirror
and bendin' over backwards just to try to see it clearer
my breath fogged up the glass
and so I drew a new face and laughed
I guess what I'm a sayin'is there ain't no better reason
to rid yourself of vanity and just go with the seasons
it's what we aim to do
our name is our virtue

I won't hesitate no more, no more
it cannot wait, i'm sure
(there's no need to complicate
our time is short
it cannot wait, i'm yours 2x

no please don't complicate, our time is short
this is our fate, im yours.
no please don't hesitate no more, no more
it cannot wait, the sky is yours!)

well open up your mind and see like me
open up your plans and damn you're free
look into your heart and you'll find love love love love
listen to the music of the moment come and dance with me
ah, la one big family
it's your god forsaken right to be loved, loved, loved, loved
open up your mind and see like me
open up your plans and damn you're free
look into your heart and you'll find love love love love
listen to the music of the moment come and dance with me
ah, la happy family
it's our god forsaken right to be loved loved loved loved
listen to the music of the moment come and dance with me
ah, la peaceful melodies
it's you god forsaken right to be loved loved loved loved... 

Tsunami

A tsunami (pronounced /tsuːˈnɑːmi/) is a series of wave created when a body of water, such as an ocean, is rapidly displaced. Earthquakes, mass movements above or below water, some volcanic eruptions and other underwater explosions, landslides, underwater earthquakes, large asteroid impacts and testing with nuclear weapons at sea all have the potential to generate a tsunami. The effects of a tsunami are always devastating due to the immense volumes of water and energy involved. Since meteorites are small, they will not generate a tsunami.
The term tsunami comes from the Japanese meaning literally (tsu)harbor (nami)wave.
The Greek historian Thucydides was the first to relate tsunamis to submarine quakes, but understanding of the nature of tsunamis remained slim until the 20th century and is the subject of ongoing research.
Many early geological, geographic, oceanographic etc; texts refer to "Seismic sea waves" - these are now referred to as "tsunami."

Warnings and prevention

Geologists, Oceanographers and Seismologist analyse each earthquake and based upon many factors may or may not issue a tsunami warning. However, there are some warning signs of an impending tsunami, and there are many systems being developed and in use to reduce the damage from tsunami. One of the most important systems that is used and constantly monitored are bottom pressure sensors. These are anchored and attached to buoys. Sensors on the equipment constantly monitor the pressure of the overlying water column - this can be deduced by the simple calculation of:
F = Gdh
where F = the overlying force or pressure in Newtons per metre square, G is the acceleration due to gravity, d = the density of the water and h = the height of the water column.
G = 9.8 m s2, d = 1.1 x 103 kg m3 and h is the depth of water in metres
Hence for a water column of 5,000 m depth the overlying pressure is equal to 9.8 x 1.1 x 103 x 5 x 103 or about 5.4 x 10 7 N m2 or about 5.7 Million tonnes per metre square.
In instances where the leading edge of the tsunami wave is the trough, the sea will recede from the coast half of the wave's period before the wave's arrival. If the slope of the coastal seabed is shallow, this recession can exceed many hundreds of meters. People unaware of the danger may remain at or near the shore out of curiosity, or for collecting fish from the exposed seabed. During the Indian Ocean tsunami of 26th December 2004, the sea withdrew and many people then went onto the exposed sea bed to investigate. Pictures taken show people on the normally submerged areas with the advancing wave in the background. Most people who were on the beach were unable to escape to high ground and died.Regions with a high risk of tsunami may use tsunami warning systems to detect tsunami and warn the general population before the wave reaches land. On the west coast of the United States, which is prone to Pacific Ocean tsunami, warning signs advise people of evacuation routes.
The Pacific Tsunami Warning System is based in Honolulu. It monitors all sesimic activity that occurs anywhere within the Pacific. Based up the magnitude and other information a tsunami warning may be issued. It is important to note that the subduction zones around the Pacific are seismically active, but not all earthquakes generate tsunami and for this reason computers are used as a tool to assist in analysing the risk of tsunami generation of each and every earthquake that occurs in the Pacific Ocean and the adjoining land masses.
As a direct result of the Indian Ocean tsunami, a re-appraisal of the tsunami threat of all coastal areas is being undertaken by national governments and the United Nations Disaster Mitigation Committee. A tsunami warning system is currently being installed in the Indian Ocean.
Computer models can predict tsunami arrival - observations have shown that predicted arrival times are usually within minutes of the predicted time. Bottom pressure sensors are able to relay information in real time and based upon the readings and other information about the seismic event that triggered it and the shape of the seafloor (bathymetry) and coastal land (topography), it is possible to estimate the amplitude and therefore the surge height, of the approaching tsunami. All the countries that border the Pacific Ocean collaborate in the Tsunami Warning System and most regularly practice evacuation and other procedures to prepare people for the inevitable tsunami. In Japan such preparation is a mandatory requirement of government, local authorities, emergency services and the population.
Some zoologists hypothesise that animals may have an ability to sense subsonic Rayleigh waves from an earthquake or a tsunami. Some animals seem to have the ability to detect natural phenomena and if correct, careful observation and monitoring could possibly provide advance warning of earthquakes, tsunami etc. However, the evidence is controversial and has not been proven scientifically. There are some unsubstantiated claims that animals before the Lisbon quake were restless and moved away from low lying areas to higher ground. Yet many other animals in the same areas drowned. The phenomenon was also noted in Sri Lanka in the 2004 Indian Ocean earthquake. The following two references whilst revelant, are media and not scientific - (BBC, (Kenneally,). It is possible that certain animals (e.g., elephants) may have heard the sounds of the tsunami as it approached the coast. The elephants reaction was to move away from the approaching noise - inland. Some humans, on the other hand, went to the shore to investigate and many drowned as a result.
It is not possible to prevent a tsunami. However, in some tsunami-prone countries some measures have been taken to reduce the damage caused on shore. Japan has implemented an extensive programme of building tsunami walls of up to 4.5 m (13.5 ft) high in front of populated coastal areas. Other localities have built floodgates and channels to redirect the water from incoming tsunami. However, their effectiveness has been questioned, as tsunami often surge higher than the barriers. For instance, the Okushiri, Hokkaidō tsunami which struck Okushiiri Islan of Hokkaidō within two to five minutes of the earthquake on July 12, 1993 created waves as much as 30 m (100 ft) tall - as high as a 10-story building. The port town of Aonae was completely surrounded by a tsunami wall, but the waves washed right over the wall and destroyed all the wood-framed structures in the area. The wall may have succeeded in slowing down and moderating the height of the tsunami, but it did not prevent major destruction and loss of life. (This reference is Japanese -)
The effects of a tsunami may be mitigated by natural factors such as tree cover on the shoreline. Some locations in the path of the 2004 Indian Ocean tsunami escaped almost unscathed as a result of the tsunami's energy being absorbed by trees such as coconut palms and mangroves. In one striking example, the village of Naluvedapathy in India's Tamil Nadu region suffered minimal damage and few deaths as the wave broke up on a forest of 80,244 trees planted along the shoreline in 2002 in a bid to enter the Guinness Book of Records. Environmentalists have suggested tree planting along stretches of seacoast which are prone to tsunami risks. It would take some years for the trees to grow to a useful size, but such plantations could offer a much cheaper and longer-lasting means of tsunami mitigation than the construction of artificial barriers.

Greenhouse gases in the atmosphere

The greenhouse effect was discovered by Joseph Fourier in 1824 and was first investigated quantitatively by Svante Arrhenius in 1896. It is the process by which absorption and emission of infrared radiation by atmospheric gases warm a planet's lower atmosphere and surface.
Existence of the greenhouse effect as such is not disputed. Naturally occurring greenhouse gases have a mean warming effect of about 33 °C (59 °F), without which Earth would be uninhabitable. On Earth, the major greenhouse gases are water vapor, which causes about 36–70% of the greenhouse effect (not including clouds); carbon dioxide (CO2), which causes 9–26%; methane (CH4), which causes 4–9%; and ozone, which causes 3–7% The issue is how the strength of the greenhouse effect changes when human activity increases the atmospheric concentrations of some greenhouse gases.
Human activity since the industrial revolution has increased the concentration of various greenhouse gases, leading to increased radiative forcing from CO2, methane, tropospheric ozone, CFCs and nitrous oxide. Molecule for molecule, methane is a more effective greenhouse gas than carbon dioxide, but its concentration is much smaller so that its total radiative forcing is only about a fourth of that from carbon dioxide. Some other naturally occurring gases contribute very small fractions of the greenhouse effect; one of these, nitrous oxide (N2O), is increasing in concentration owing to human activity such as agriculture. The atmospheric concentrations of CO2 and CH4 have increased by 31% and 149% respectively since the beginning of the industrial revolution in the mid-1700s. These levels are considerably higher than at any time during the last 650,000 years, the period for which reliable data has been extracted from ice cores. From less direct geological evidence it is believed that CO2 values this high were last attained 20 million years ago. Fossil fuel burning has produced about three-quarters of the increase in CO2 from human activity over the past 20 years. Most of the rest is due to land-use change, in particular deforestation.The present atmospheric concentration of CO2 is about 385 parts per million (ppm) by volume. Future CO2 levels are expected to rise due to ongoing burning of fossil fuels and land-use change. The rate of rise will depend on uncertain economic, sociological, technological, and natural developments, but may be ultimately limited by the availability of fossil fuels. The IPCC Special Report on Emissions Scenarios gives a wide range of future CO2 scenarios, ranging from 541 to 970 ppm by the year 2100. Fossil fuel reserves are sufficient to reach this level and continue emissions past 2100, if coal, tar sands or methane clathrates are extensively used.

Causes

The Earth's climate changes in response to external forcing, including variations in its orbit around the Sun (orbital forcing), volcanic eruptions, and atmospheric greenhouse gas concentrations. The detailed causes of the recent warming remain an active field of research, but the scientific consensus is that the increase in atmospheric greenhouse gases due to human activity caused most of the warming observed since the start of the industrial era. This attribution is clearest for the most recent 50 years, for which the most detailed data are available. Some other hypotheses departing from the consensus view have been suggested to explain the temperature increase. One such hypothesis proposes that warming may be the result of variations in solar activity.
None of the effects of forcing are instantaneous. The thermal inertia of the Earth's oceans and slow responses of other indirect effects mean that the Earth's current climate is not in equilibrium with the forcing imposed. Climate commitment studies indicate that even if greenhouse gases were stabilized at 2000 levels, a further warming of about 0.5 °C (0.9 °F) would still occur.

Global Warming

Global Warming

Global warming is the increase in the average temperature of the Earth's near-surface air and oceans since the mid-twentieth century and its projected continuation.
The global average air temperature near the Earth's surface rose 0.74 ± 0.18 °C (1.33 ± 0.32 °F) during the hundred years ending in 2005. The Intergovernmental Panel on Climate Change (IPCC) concludes "most of the observed increase in globally averaged temperatures since the mid-twentieth century is very likely due to the observed increase in anthropogenic greenhouse gas concentrations" via the greenhouse effect. Natural phenomena such as solar variation combined with volcanoes probably had a small warming effect from pre-industrial times to 1950 and a small cooling effect from 1950 onward.These basic conclusions have been endorsed by at least thirty scientific societies and academies of science, including all of the national academies of science of the major industrialized countries. While individual scientists have voiced disagreement with some findings of the IPCC,the overwhelming majority of scientists working on climate change agree with the IPCC's main conclusions
Climate model projections summarized by the IPCC indicate that average global surface temperature will likely rise a further 1.1 to 6.4 °C (2.0 to 11.5 °F) during the twenty-first century. The range of values results from the use of differing scenarios of future greenhouse gas emissions as well as models with differing climate sensitivity. Although most studies focus on the period up to 2100, warming and sea level rise are expected to continue for more than a thousand years even if greenhouse gas levels are stabilized. The delay in reaching equilibrium is a result of the large heat capacity of the oceans.
Increasing global temperature will cause sea level to rise, and is expected to increase the intensity of extreme weather events and to change the amount and pattern of precipitation. Other effects of global warming include changes in agricultural yields, trade routes, glacier retreat, species extinctions and increases in the ranges of disease vectors.
Remaining scientific uncertainties include the amount of warming expected in the future, and how warming and related changes will vary from region to region around the globe. Most national governments have signed and ratified the Kyoto Protocol aimed at reducing greenhouse gas emissions, but there is ongoing political and public debate worldwide regarding what, if any, action should be taken to reduce or reverse future warming or to adapt to its expected consequences