এই ব্লগটি সন্ধান করুন

শুক্রবার, ১২ আগস্ট, ২০১১

London, United Kingdom


London Museums, United Kingdom




British Museum

One of the biggest museums in the world.

National Gallery Museum

Museum that houses paintings of European artists from 1250 to the last century. Includes works by Botticelli, Leonardo da Vinci, Rembrandt, Turner, Renoir, Cezanne and Van Gogh.

Tate Modern

Tate Modern is the national British museum of modern art. It is housed in the former Bankside power plant on the banks of the Thames and contains an impressive collection of modern and contemporary works.

Tate Britain

Even if the opening of Tate Gallery attracted much attention, its parent gallery should not be missed.

Museum of London

An exceptional "interactive" museum where it is possible to discover the history of London from its founding to our times.

Victoria and Albert Museum

The museum dedicated to Queen Victoria and her husband Prince Albert is one of the best museums in the world for decorative arts.


The Queen's Gallery

The Queen's Gallery underwent a major expansion in 2002 in order to house pieces from the royal collection throughout the year.

Estorick Collection of Modern Italian

Art Housed in a Georgian villa, the museum contains an interesting collection of paintings and sculptures by 20th century Italian artists with a rich section dedicated to Futurism: works by Balla, Boccioni, Carra, Rossolo and Severini are on display.

HMS Belfast Historic Ship

Battle cruiser from World War II it is now used as a floating museum. 

Natural History Museum

A museum which houses hundreds of "interactive" displays. The area dedicated to dinosaurs is interesting, with its reconstruction of life size skeletons and the section dedicated to the human body.

Science Museum

The largest museum in the world dedicated to science is completely interactive. It lets visitors "touch" the most important scientific discoveries of the last 300 years.

National Maritime Museum

Opened the last time in 1999, this museum is an amazing display of boats, models, nautical maps, uniforms and everything tied to the glorious history of the British navy, including mementos of Admiral Nelson

London's Transport Museum

A fascinating museum dedicated to London's transportation system, the city which boasts the oldest public transportation in the world: old trolleybuses, tickets from the first double-decker buses, uniforms of personnel...

Vinopolis - World Of Wine

Learning about the art of winemaking and discovering the differences of the culture of wine in 5 continents

Bramah's Museum of Tea and Coffee

Visitors can learn about the meaning and impact on society, growing and processing methods, art and literary works related to the two popular beverages.

visit the science museum

While staying in London first thing you will certainly do is to explore the area of your stay place. Probably next will be the common tourist spots like the London Eye, Buckingham Palace, Big Bens, be discovered and the tourists are missing them due to the fact that they are located away from the tourist routs.
The London Science Museum is one of those extraordinary places located in the South Kensington and ready to amaze you with its numerous halls and exhibitions. Those who consider that this is just another of those annoying old museum full with not quite interesting facts and objects will be more that surprised after they see the IMAX Cinema, the Space travel simulator and few digital games inside. Some of the halls of the museum represents the history of science right after its beginning. You can see exhibitions of old planes, first car constructions and many other amazing creations but this is just a tiny part from the whole museum’s galleries. All the arrangement in the London Science Museum is based on different topics which will allow you to discover the creation of our modern world. Undoubtedly the most interesting exhibitions are the Launchpad and the In Future. Despite all the prejudices which people actually have about the museums this one can really broke all of the. It will face you with some essential questions about our existence, development of the technologies, the consequences from this and what will be our future.
So after you land on the British airport and leave your bads in your stay place no matter if it is a hotel, hostel or holiday apartment in London grab a guide and look for some place like London Science Museum which are away from the common tourist routs but can offer you a lot when it comes to remarkable experience.
Observation: Every year in the spring, the Nile River flooded areas of Egypt along the river, leaving behind nutrient-rich mud that enabled the people to grow that year’s crop of food. However, along with the muddy soil, large numbers of frogs appeared that weren’t around in drier times.
“Conclusion”: It was perfectly obvious to people back then that muddy soil gave rise to the frogs.

Mouse Observation: In many parts of Europe, medieval farmers stored grain in barns with thatched roofs (like Shakespeare’s house). As a roof aged, it was not uncommon for it to start leaking. This could lead to spoiled or moldy grain, and of course there were lots of mice around.
“Conclusion”: It was obvious to them that the mice came from the moldy grain.
Observation: In the cities, there were no sewers nor garbage trucks. Sewage flowed in the gutters along the streets, and the sidewalks were raised above the streets to give people a place to walk. In the intersections, raised stepping stones were strategically placed to allow pedestrians to cross the intersection, yet were spaced such that carriage wheels could pass between them. In the morning, the contents of the chamber pots were tossed out the nearest window. When people were done eating a meal, the bones were tossed out the window, too. A chivalrous gentleman always walked closest to the street when escorting a woman, so if a horse and carriage came by and splashed up this filth, it would land on him, and not the lady’s expensive silk gown. Most of these cities also had major rat problems which contributed to the spread of Bubonic Plague (Black Death) — hence the story of the Pied Piper of Hamelin, Germany.
“Conclusion”: Obviously, all the sewage and garbage turned into the rats.
Fly Observation: Since there were no refrigerators, the mandatory, daily trip to the butcher shop, especially in summer, meant battling the flies around the carcasses. Typically, carcasses were “hung by their heels,” and customers selected which chunk the butcher would carve off for them.
“Conclusion”: Obviously, the rotting meat that had been hanging in the sun all day was the source of the flies.
From this came a number of interesting recipes, such as:
Bee Recipe for bees: Kill a young bull, and bury it in an upright position so that its horns protrude from the ground. After a month, a swarm of bees will fly out of the corpse.

Jan Baptista van Helmont’s recipe for mice: Place a dirty shirt or some rags in an open pot or barrel containing a few grains of wheat or some wheat bran, and in 21 days, mice will appear. There will be adult males and females present, and they will be capable of mating and reproducing more mice.
Bacteria With the development and refinement of the microscope in the 1600s, people began seeing all sorts of new life forms such as yeast and other fungi, bacteria, and various protists. No one knew from where these organisms came, but people figured out they were associated with things like spoiled broth. This seemed to add new evidence to the idea of spontaneous generation — it seemed perfectly logical that these minute organisms should arise spontaneously. When Jean Baptiste Lamarck proposed his theory of evolution, to reconcile his ideas with Aristotle’s Scala naturae, he proposed that as creatures strive for greater perfection, thus move up the “ladder,” new organisms arise by spontaneous generation to fill the vacated places on the lower rungs.
In contrast to just guessing based on simple observations, what may well be the first recorded use of the scientific method to conduct an experiment occurred in about 587 bce. To give a bit of background and put this in historical perspective, in that year, the Babylonians under Nebuchadnezzar won a victory over the kingdom of Judah, and the people of Judah were incorporated into the Babylonian empire — or at least that was the Babylonian plan. One of the reasons the Babylonians were such a successful world power is that it was their policy that whenever they conquored another nation, they did away with those people’s cultural identity by assimilating/absorbing those people into their own culture. Some of the newly-conquored people were forced to migrate to other areas of the Babylonian empire, including Babylon itself, while people from other areas of the Babylonian empire were sent to live and mingle with those of the newly-conquored people who were left behind. Young male relatives of the conquored ruling family were often taken to King Nebuchadnezzar’s palace in Babylon, where they were taught Babylonian history, culture, language, and astrology/science, and in general, assimilated into the lower ranks of Babylonian royalty, serving in various roles within the palace. As part of this assimilation process, these young men were also fed the rich food that was the typical diet in Nebuchadnezzar’s palace.

However, in the case of the newly-conquored Judeans, unlike the other cultures which Babylon had conquored, the plan did not work, and the Judeans found ways to maintain their own cultural heritage despite the attempted assimilation. The story is told of four young Judean noblemen whose Hebrew names were Daniel, Hananiah, Mishael, and Azariah, who were given new, Babylonian names of Belteshazzar, Shadrach, Meshach, and Abednego, respectively, and who were brought into Nebuchadnezzar’s palace. Determined to not eat anything that was not in accord with the dietary rules of Judean religious culture, they requested that they be given a vegetarian diet. However, the palace official in charge of them was skeptical of their request, knowing that if they began to look less robust and healthy than the young men from other cultures who were also in training, he would be killed for not taking good care of them. Daniel suggested that they try an experiment. He asked that for ten days, the four of them be fed a vegetarian diet, and at the end of that time, be compared with the other young men to see who looked healthier.

Question:
Will eating a vegetarian diet make us unhealthy?
Hypothesis:
Eating a vegetarian diet is healthy (or as health as or more healthy than a rich-food diet).
Prediction:
After eating a vegetarian diet for ten days, we will look at least as healthy by visual examination, if not healthier, than those who consume a diet of rich foods.
Testing:
For ten days, we will eat a vegetarian diet, while the other young men eat their normal rich-food diet. They are, thus, the control group, and the four of us are the experimental group. Because there are four of us, that both makes us a true group and makes sure there is adequate replication in this experiment.
Data:
Here, by our modern standards, the experiment is a bit weak. All that is specified, data-wise is a general physical inspection at the end of the ten days to see who, subjectively, looks the most robust. Now, we would expect some concrete, numerical data to be gathered, perhaps weight, blood pressure, pulse, etc., and averages calculated for each group. However, in 587 bce, sphygmomanometers and stethoscopes hadn’t been invented, yet, so they did the best they could with the tools they had available. Based on the physical inspection at the end of the ten days, the “data” were that the four Judean young men appeared “healthier and better nourished” (Dan. 1:15) than those who had consumed the rich-food diet.
Conclusion:
Based on the data (the observed differences in appearance), it was concluded that not only was the vegetarian diet not harmful to their health, but that, in fact, it made them healthier than those in the control group, and thus it was not only safe but advantageous to continue feeding them the vegetarian diet they had requested.
The following steps make up the Scientific Method.
These steps make up a method which may be used to logically solve problems in many other areas of life. For example, Françesco Redi and Louis Pasteur used the scientific method to disprove the idea of spontaneous generation.
Observation:
A good scientist is observant and notices thing in the world around him/herself. (S)he sees, hears, or in some other way notices what’s going on in the world and becomes curious about what’s happening. This can and does include reading and studying what others have done in the past because scientific knowledge is cumulative. In physics, when Newton came up with his Theory of Motion, he based his hypothesis on the work of Copernicus, Kepler, and Galileo as well as his own, newer observations. Darwin not only observed and took notes during his voyage, but he also studied the practice of artificial selection and read the works of other naturalists to form his Theory of Evolution. For example:
  • Observation: As mentioned above, flies were observed around the carcasses at the butcher shops.
  • Observation: It was known that soup that was exposed to the air spoiled — bacteria grew in it. Some people claimed that there was a “life force” present in the molecules of all inorganic matter, including air and the oxygen in it, that could cause spontaneous generation to occur, thus accounting for the presence of bacteria in spoiled soups. Even when briefly-boiled soup was poured into “clean” flasks with cork lids, microorganisms still grew there. Containers of soup that had been boiled for one hour, and then were sealed, remained sterile. Boiling for only a few minutes was not enough to sterilize the soup.
Question:
The scientist then raises a question about what (s)he sees going on. The question raised must have a “simple,” concrete answer that can be obtained by performing an experiment. For example, “How many students came to school today?” could be answered by counting the students present on campus, but “Why did you come to school today?” couldn’t really be answered by doing an experiment. For example:
  • Question: Where do the flies at the butcher shop really come from? Does rotting meat turn into or produce the flies?
  • Question: Is there indeed a “life force” present in air (or oxygen) that can cause bacteria to develop by spontaneous generation? Is there a means of allowing air to enter a container, thus any life force, if such does exist, but not the bacteria that are present in that air?
Hypothesis:
This is a tentative answer to the question: a testable explanation for what was observed. The scientist tries to explain what caused what was observed. For example:
  • Hypothesis: Rotten meat does not turn into flies. Only flies can make more flies.
  • Hypothesis: There is no such life force in air, and a container of sterilized broth will remain sterile, even if exposed to the air, as long as bacteria cannot enter the flask.
There are several important things to remember about the hypothesis:
  • In a cause and effect relationship, what you observe is the effect, and hypotheses are possible causes. A generalization based on inductive reasoning is not a hypothesis. An hypothesis is not an observation, rather, a tentative explanation for the observation. For example, I might observe the effect that my throat is sore. Then I might form hypotheses as to the cause of that sore throat, including a bacterial infection, a viral infection, or screaming too much at a ball game.
  • Hypotheses reflect past experience with similar questions (“educated propositions” about cause) and the work of others. Hypotheses are based on previous knowledge, facts, and general principles. Your answer to the question of what caused the observed effect will be based on your previous knowledge of what causes similar effects in similar situations. For example, I know that colds are contagious, I don’t know anyone with a cold, I was at the ball game yesterday, and I was doing a lot of yelling while I was there, so I think that caused my sore throat.
  • Multiple hypotheses should be proposed whenever possible. One should think of alternative causes that could explain the observation. (the correct one may not even be one that was thought of!) For example, maybe somebody sitting near me at the ball game had a sore throat and passed it on to me.
  • Hypotheses should be testable by experimentation and deductive reasoning. For example, throat culture and other tests yielded no signs of a bacterial or viral infection, I have no fever or other signs/symptoms, and the doctor says my vocal cords are “swollen” in a way that would indicate overuse.
  • Hypotheses can be proven wrong/incorrect, but can never be proven or confirmed with absolute certainty. It is impossible to test all given conditions, and someone with more knowledge, sometime in the future, may find a condition under which the hypothesis does not hold true.
Prediction:
Next, the experimenter uses deductive reasoning to test the hypothesis.
  • Prediction: If meat cannot turn into flies, rotting meat in a sealed (fly-proof) container should not produce flies or maggots.
  • Prediction: If there is no life force, broth in swan-neck flasks should remain sterile, even if exposed to air, because any bacteria in the air will settle on the walls of the initial portion of the neck. Broth in flasks plugged with cotton should remain sterile because the cotton is able to filter bacteria out of the air.
There are several important things to remember about the prediction:
  • Inductive reasoning goes from a set of specific observations to general conclusions: I observed cells in x, y, and z organisms, therefore all animals have cells.
  • Deductive reasoning flows from general to specific. From general premises, a scientist would extrapolate to specific results: if all organisms have cells and humans are organisms, then humans should have cells. This is a prediction about a specific case based on the general premises.
  • Generally, in the scientific method, if a particular hypothesis/premise is true and “X” experiment is done, then one should expect (prediction) a certain result. This involves the use of “if-then” logic. For example, if my hypothesis that my throat is sore because I did too much screaming at the ball game is true and if a doctor examines my vocal cords, then (s)he should be able to observe that they are inflamed, and as the inflammation heals, the sore throat should go away.
  • A prediction is the expected results if the hypothesis and other underlying assumptions and principles are true and an experiment is done to test that hypothesis. For example, in physics if Newton’s Theory of Motion is true and certain “unexplained” measurements and calculations pointing to the possibility of another planet are correct, then if I point my telescope to the specific position that I can calculate mathematically, I should be able to discover/observe that new planet. Indeed, that is the way in which Neptune was discovered in 1846.
Testing:
Then, the scientist performs the experiment to see if the predicted results are obtained. If the expected results are obtained, that supports (but does not prove) the hypothesis.
  • Fly ExperimentTesting: Wide-mouth jars each containing a piece of meat were subjected to several variations of “openness” while all other variables were kept the same.
    control group — These jars of meat were set out without lids so the meat would be exposed to whatever it might be in the butcher shop.
    experimental group(s) — One group of jars were sealed with lids, and another group of jars had gauze placed over them.
    replication — Several jars were included in each group.
  • Data: Presence or absence of flies and maggots seen in each jar was recorded. In the control group of jars, flies were seen entering the jars. Later, maggots, then more flies were seen on the meat. In the gauze-covered jars, no flies were seen in the jars, but were observed around and on the gauze, and later a few maggots were seen on the meat. In the sealed jars, no maggots or flies were ever seen on the meat.
  • Conclusion(s): Only flies can make more flies. In the uncovered jars, flies entered and laid eggs on the meat. Maggots hatched from these eggs and grew into more adult flies. Adult flies laid eggs on the gauze on the gauze-covered jars. These eggs or the maggots from them dropped through the gauze onto the meat. In the sealed jars, no flies, maggots, nor eggs could enter, thus none were seen in those jars. Maggots arose only where flies were able to lay eggs. This experiment disproved the idea of spontaneous generation for larger organisms.

  • Soup ExperimentTesting: Broth was boiled in various-shaped flasks to sterilize it. As the broth and air in the containers cooled, fresh room air was drawn into the containers. None of the flasks were sealed — all were exposed to the outside air in one way or another.
    control group — Some flasks opened straight up, so not only air, but any bacteria present in that air, could get into them.
    experimental group(s) — Some flasks had long, S-shaped necks (swan-neck flasks) and others were “closed” with cotton plugs. This allowed air to enter these flasks, but the long, swan neck or the cotton balls filtered out any bacteria present in that air. The long necks were subsequently broken off some of the swan-neck flasks.
    replication — Several flasks were used in each of the groups.
  • Data: Broth in flasks with necks opening straight up spoiled (as evidenced by a bad odor, cloudiness in previously clear broth, and microscopic examination of the broth confirming the presence of bacteria), while broth in swan-neck flasks did not, even though fresh air could get it. Broth in flasks with cotton plugs did not spoil, even though air could get through the cotton. If the neck of a swan-neck flask was broken off short, allowing bacteria to enter, then the broth became contaminated.
  • Conclusion(s): There is no such life force in air, and organisms do not arise by spontaneous generation in this manner. To quote Louis Pasteur, “Life is a germ, and a germ is Life. Never will the doctrine of spontaneous generation recover from the mortal blow of this simple experiment.”
In science when testing, when doing the experiment, it must be a controlled experiment. The scientist must contrast an “experimental group” with a “control group”. The two groups are treated EXACTLY alike except for the ONE variable being tested. Sometimes several experimental groups may be used (but only that one thing may vary among the groups). For example, in an experiment to test the effects of day length on plant flowering, one could compare normal, natural day length supplied by an artificial light source (the control group) to several variations in length of exposure to the same type of artificial light source (the experimental groups).
When doing an experiment, replication is important. Everything should be tried several times on several subjects. For example, in the experiment just mentioned, a student scientist would have at least three plants in the control group and each of the experimental groups, while a “real” researcher would probably have several dozen. If a scientist had only one plant in each group, and one of the plants died, there would be no way of determining if the cause of death was related to the experiment being conducted.
The experimenter gathers actual, quantitative data from the subjects. For example, it’s not enough to say, “I’m going to see how the dog reacts in this situation.” That’s too vague, so rather, in that experiment, the scientist might have a list of certain behaviors, and record how often each of the dogs tested exhibits each of those pre-defined behavior patterns. Data for each of the groups are then averaged and compared statistically. It’s not enough to say that the average for group “X” was one thing and the average for group “Y” was another, so they were different or not. The scientist must also calculate the standard deviation or some other statistical analysis to document that any difference is statistically significant.
Research is cumulative and progressive. Scientists build on the work of previous researchers, and one important part of any good research is to first do a literature review to find out what previous research has already been done in the field. Science is a process — new things are being discovered and old, long-held theories are modified or replaced with better ones as more data/knowledge is accumulated. For example, the idea that the sun is at the center of our solar system replaced the idea that the earth was at the center of the universe, and the idea that ulcers are caused by stress has been replaced by the idea that ulcers are caused by bacterial infection. Scientists are human, too, and so these major changes are often controversial and accompanied by violent debate!
A theory is a generalization based on many observations and experiments; a well-tested, verified hypothesis that fits existing data and explains how processes or events are thought to occur. It is a basis for predicting future events or discoveries. Theories may be modified as new information is gained. This definition of a theory is in sharp contrast to colloquial usage, where people say something is “just a theory,” thereby intending to imply a great deal of uncertainty.
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Conclusion
By Cody Schilling


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The conclusion is important because it is the explanation and summary of what happened in the experiment. The conclusion ties everything together and answers your question or problem.
The first thing you do in the conclusion is restate your question or problem and what you expected to happen.
The next thing you do is explain what happened during the process of the experiment using the data and observations that were recorded in the previous step.
The last thing you have to do is discuss the things that went right and the things that went wrong during the experiment. Sometimes you find out that you may not have designed the experiment correctly. So what did you do wrong? Maybe you used the wrong materials or had more than one variable that wasn’t controlled. This means you don’t get an accurate answer to your question. Other times, things just accidentally go wrong. If anything did go wrong, did it affect the way you expected the experiment to come out? All of these things need to be explained in the conclusion.
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Observing & Recording
By SAWMIK SAURAV

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 Observing and recording is an important step in the Scientific Method. Your observations and the data you collect help you answer your question or problem and form your conclusion. It might be a good idea to have a friend help you do this step.
Qualitative Data
Observe means to examine carefully. You observe what is happening in the experiment by using your senses, but not all of them! Some of the senses are not safe to use when you’re doing an experiment, such as touch and taste. What is and is not safe to use can change from experiment to experiment. This kind of data is called qualitative because you’re not using any kind of instrument to collect it. You can organize your observations using things like charts or just write them down as notes.
Quantitative Data
Information that you collect using instruments is called quantitative data. Quantitative data may be time, distance, length, speed, volume, mass or weight. There are all kinds of things that can be measured. You can organize your quantitative data using graphs, charts, tables or lists.

Designing & Doing the Experiment 
BY: SAWMIKSAURAV
STEP 1 – Consider Your Question or Problem
(What am I testing and how can I do it?)
The most important thing is to design an experiment that matches up with your question or problem. If you were testing human heart rate during exercising, you wouldn’t be dealing with different brands of tennis shoes! This is a very hard step to the Scientific Method because there are so many things to look at or consider. YOUR DESIGN SHOULD PRODUCE AN ANSWER TO YOUR QUESTION!  You might want to look back at your hypothesis for some help.
  STEP 2 – Think About All the Variables
  (What might change in my experiment?)
A variable is a difference or a part of your experiment that can change. For example, if you were to do an experiment on plants, some of the things that you could change include the amount of water or light, and the kind of dirt or plant. You need to list all the things that can change in your experiment. Maybe you could let a parent, teacher, or friend check over your list.
  STEP 3 – Set-Up a Controlled Experiment
  (How do I keep the variables from changing?)
In your experiment design you can only have one variable that changes. The variable that changes should be the one that you are testing. For example, if you chose to do an experiment on light and plant growth, you would make sure that the variable that changes is the amount of light. If you have more than one variable that changes, that would make it an uncontrolled experiment. An uncontrolled experiment is an experiment that will not give you the answer to your question OR give you the wrong answer. Now use the list of variables that you made and make sure none of them change except the one you are testing!
  STEP 4 – Doing the Experiment
  (What materials do I need?)
This is the easiest part of designing and doing an experiment because all you have to do is get your materials together and set it up! WARNING! You need to make sure that you’re taking it seriously and thinking about safety. If your experiment is on something that could be dangerous, make sure that an adult knows what is going on.


STEP 3 – Set-Up a Controlled Experiment
  (How do I keep the variables from changing?)
In your experiment design you can only have one variable that changes. The variable that changes should be the one that you are testing. For example, if you chose to do an experiment on light and plant growth, you would make sure that the variable that changes is the amount of light. If you have more than one variable that changes, that would make it an uncontrolled experiment. An uncontrolled experiment is an experiment that will not give you the answer to your question OR give you the wrong answer. Now use the list of variables that you made and make sure none of them change except the one you are testing!
  STEP 4 – Doing the Experiment
  (What materials do I need?)
This is the easiest part of designing and doing an experiment because all you have to do is get your materials together and set it up! WARNING! You need to make sure that you’re taking it seriously and thinking about safety. If your experiment is on something that could be dangerous, make sure that an adult knows what is going on.
 
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Hypothesis
By SAWMIK SAURAV

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   Forming a hypothesis is the second step in the Scientific Method. It is an educated guess that answers your question.
The first thing you need to have in order to form an EDUCATED GUESS is background knowledge. If you do not have background knowledge, then you need to hit the books to find information about your question, problem, or subject.
Researching is probably the hardest part about making a hypothesis but it’s not the most important. Once you complete the research you need to decide on a hypothesis that MAKES SENSE. This is important because it can affect how you design your experiment, and it gives you an idea of what to be looking for during the experiment.

‘Sundarbans – The Venice of Nature'

:: Sundarban
Sundarban is the world biggest mangrove forest. In Bangladesh tourism, Sundarban plays the most vital role. A large number of foreigners come to Bangladesh every year only to visit this unique mangrove forest. Besides, local tourists also go to visit Sundarban every year. The area of great Sundarban is approximately 6000 sq. km.
General Information about Sudarban:
AREA: Nearly 2400 sq. miles or 6000 sq. km. 
FOREST LIMITS: North-Bagerhat, Khulna and Sathkira districts : South-Bay of Bengal; East-Baleswar (or Haringhata) river, Perojpur, Barisal district, and West-Raimangal and Hariabhanga rivers which partially form Bangladesh boundary with West Bengal in India.
MAIN ATTRACTIONS: Wildlife photography including photography of the famous Royal Bengal Tiger, wildlife viewing, boating inside the forest will call recordings, nature study, meeting fishermen, wood-cutters and honey-collectors, peace and tranquility in the wilderness, seeing the world's largest mangrove forest and the revering beauty.

[Dears at Sundarban]

The Sundarbans are the largest littoral mangrove belt in the world, stretching 80km (50mi) into the Bangladeshi hinterland from the coast. The forests aren't just mangrove swamps though; they include some of the last remaining stands of the mighty jungles, which once covered the Gangetic plain.
The Sundarbans cover an area of 38,500 sq km, of which about one-third is covered in water.
Since 1966 the Sundarbans have been a wildlife sanctuary, and it is estimated that there are now 400 Royal Bengal tigers and about 30,000 spotted deer in the area.
Sundarbans is home to many different species of birds, mammals, insects, reptiles and fishes. Over 120 species of fish and over 260 species of birds

[Sundarban - Royal Bengal Tigar ]
have been recorded in the Sundarbans. The Gangetic River Dolphin (Platanista gangeticus) is common in the rivers. No less than 50 species of reptiles and eight species of amphibians are known to occur. The Sundarbans now support the only population of the Estuarine, or Salt-Water Crocodile (Crocodiles paresis) in Bangladesh, and that population is estimated at less than two hundred individuals
Here land and water meet in many novel fashions, Wildlife presents many a spectacle. No wonder, you may come across a Royal Bengal Tiger swimming across the streams or the crocodiles basking on the riverbanks.

[Wild Monkyes at Sundarban]

With the approach of the evening herds of deer make for the darking glades where boisterous monkeys shower Keora leaves from above for sumptuous meal for the former. For the botanist, the lover of nature, the poet and the painter this land provides a variety of wonder for which they all crave. 

It's beauty lies in its unique natural surrounding. Thousands of meandering streams, creeks, rivers and estuaries have enhanced its charm. Sundarbans meaning beautiful forest is the natural habitat of the world famous Royal Bengal Tiger, spotted deer, crocodiles, jungle fowl, wild boar, lizards, theses monkey and an innumerable variety of beautiful birds. Migratory flock of Siberian ducks flying over thousands of sail boats loaded with timber, golpatta (round-leaf), fuel wood, honey, shell and fish further add to the serene natural beauty of the Sundarbans. 

This is indeed a land for the sportsmen, the anglers and the photographers with its abundance of game, big and small, crocodile, wild boar, deer, pythons, wild-birds and above all the Royal Bengal Tiger, cunning, ruthless and yet majestic and graceful, For the less adventurously inclined, there are ducks and snipes,

[Wild Orchid Garden at Kotka, Sundarban]
herons and coots, yellow-lags and sandpipers. It is also the land for the ordinary holiday makers who desire to rest or wander around at will to refresh their mind and feast their eyes with the rich treasure that nature has so fondly bestowed.
Means of Communication: Water transport is the only means of communication for visiting the Sundarbans from Khulna or Mongla Port. Private motor launch, speedboats, country boats as well as mechanized vessel of Mongla Port Authority might be hired for the purpose. From Dhaka visitors may travel by air, road or rocket steamer to Khulna - the gateway to the Sundarbans. Most pleasant journey from Dhaka to Khulna is by Paddle Steamer, Rocket presenting a picturesque panorama of rural Bangladesh. Day and nightlong coach services by road are also available. The quickest mode is by air from Dhaka to Jessore and then to Khulna by road.
Journey time: It varies depending on tides against or in favor in the river. Usually it takes 6 to 10 hours journey by motor vessel from Mongla to Hiron Point or Katka.

FAMOUS SPOTS: The main tourist spots in Sundarban are Karamjol, Katka, Kochikhali, Hiron point and Mandarbaria. Hiron Point (Nilkamal) for tiger, deer, monkey, crocodiles, birds and natural beauty. Katka for deer, tiger, crocodiles, varieties of birds and monkey, morning and evening symphony of wild fowls. Vast expanse of grassy meadows running from Katka to Kachikhali (Tiger Point) provides opportunities for wild tracking.
Tin Kona Island for tiger and deer.

:: Dublar Char (Island) for fishermen. It is a beautiful island where herds of spotted deer are often seen to graze.
:: Katka
Katka is one of Heritage sites in Sunderban. In Katka there is a wooden watching tower of 40 ft. high from where you can enjoy the scenic beauty of Sunderban. A beautiful sea beach is there is Katka; you will enjoy while you are walking to go the beach from the watching tower. Verities birds are visible in Katka.

[Sunset at Sundarban]
:: Hiran point
This is another tourist spot in Sunderban. It is called the world heritage state. You can enjoy the beauty of wild nature and dotted dears walking and running in Hiron point.
There are also two other Heritage side in Sunderban; one is Kochikhali and the other is Mandarbaria where you will find dears and birds. If you are lucky you can see the Great Royal Bengal Tiger, but for sure you can at least see the stepping of Great Royal Bengal Tiger here and there in these spots.
:: Karamjol
Karamjol is a forest station for the Rangers. Here you can see a dear breeding center. To visit Sunderban you need to go there with a guide and it is even better if you go there with a group. You can stay two/three days in Sunderban depending on your desire and requirements. One-day tour is not enough for Sundarban as you will not be able to see the nature in haste. For one-day tour you can go up to Karamjol and at a glance visit the outer portion of Sunderban forest areas.

[Fishing at Sundarban]
In your Sunderban tour you will be able to see a lots of verities birds (a heaven for the bird watchers), can watch the fishing in the river by the fishermen, if you wish you can ask your tour operator to give a stopover in the fishermen villages to watch their lifestyle, see lots of animals like monkeys, various types Dears, foxes,
Crocodiles, Snakes and if you are lucky person you will be able to see the greatest mystery of Sunderban –The Royal Bengal Tiger. Sunderban is one of main sources to collect pure honey. You should not forget to buy some pure honey. Another inexpressible and unforgettable beauty you can enjoy if you can match your timing of tour in full moon. In the full moon the nights in Sunderban could be one of the most memorable nights for your whole life.
Other necessary Information about Sundarban Tour:
Entry Permission: Prior permission must be obtained through written application from the Divisional Forest Office, Circuit House Road, Khulna (Phone 20665, 211731) to visit the Sundarbans. Required entrance fees for visitors, vessel or boat payable at the relevant forest station/range office.
Fee for Commercial Photography:

Movie Tk. 5,000.00 per role exposed
Video Tk. 4,000.00 per Cassette
Still Tk. 1,000.00 per role exposed

Guided Tours: To feel the beauty of Sunderban you will have to go inside Sunderban & visit at least the most common tourist spots of Sunderban, specially the four-heritage side of Katka, Hiron point, Mandarbaria & Kachikhali. It will require minimum two nights stay in Sunderban to visit these spots and if you are in a group you can ask your tour operator to make it three, four or five night tour package as per your desire ness to invent the real beauty of Sunderban in your Package tour program.  In Sunderban visit, all the way you will have to go by tourist launch and spend your night also in the launch as no hotel or motel facilities are available there inside of Sunderban. In this tour your foods and water will be supplied from the tourist launch only. So to visit the great Sundarban you will have to decide in advance how many days you want to spent in Sunderban – accordingly your tour operator will arrange and preserve year foods and water. Tour operators offers all-inclusive guided package fours from Dhaka to Sundarbans and return during the tourist season (October to March). 
Climate: Climate in the Sundarbans is moderate. Air is humid. Full monsoon is from June to September. The annual rainfall average between 65" and 70". During ebb tide the forest becomes bare by 6-7 feet and at high tide (30 miles and hour) the entire territory of the forest floats on water.
Life in Forest: Only means of transportation inside the forest is boat. There is no road, no trail of a path anywhere. The woodcutters make temporary dwellings at the edge of the forest at a height of 8-10 feet for fear of wild animals others live on boats. In the chandpai region it is fascinating to see the nomadic fishermen (living with families on boats) catching fish with the help of trained offers. Exciting activities take place in Dublar Char in the forest where fishermen from Chittagong gather for four months (mid Oct. to mid Feb.) to catch and dry fish. But the most daring and exciting of all activities is presented by the honey-collectors who work in groups for just two months (April-May) and it is interesting to see how they locate a hive and then collect honey.
Flora and Fauna: The Sundarbans is endowed by nature with rich flora and fauna. It is a wonderful place to see or to shoot a Royal Bengal Tiger with Camera if one has the time to wait in the forest. There are a good number of tigers in the Sundarbans. Lovely spotted deer are easy to find. Besides there are a wide variety of wildlife for which the Sundarbans is so famous.
Visit to the Forest: Permission from the Division Forest Officer, Khulna is required to visit to the forest. Cholera vaccine is to be taken well in advance. Anti-malarial, anti-diarrhoeal, insect repellent cream, drinking water, green coconuts, medical kit, light tropical dress, thick rubber soled boots etc. are to be carried with the tourist. It will be wise to take the help of an experienced guide to make the journey fruitful.
Tourist season & Shooting: Best time to visit the Sundarbans is from November to March. Exciting honey collection season is during April-May. Hunting is prohibited by law in the country for the preservation of wildlife. Certain species of birds, however, can be shot with prior permission of the Divisional Forest Officer, Khulna.

VOTE FOR SUNBAN .

Where the land meets the sea at the southern tip of West Bengal lies the Indian Sundarbans, a stretch of impenetrable mangrove forest of great size and bio-diversity. A UNESCO World Heritage Site, Sundarban is a vast area covering 4262 square kms in India alone, with a larger portion in Bangladesh. 2585 sq. kms of the Indian Sundarban forms the largest Tiger Reserve and National Park in India. The total area of the Indian part of the Sundarban forest, lying within the latitude between 21°13’-22°40’ North and longitude 88°05’-89°06’ East, is about 4,262 sq km, of which 2,125 sq km is occupied by mangrove forest across 56 islands and the balance is under water. 
© Sumit
The Sundarbans are a part of the world's largest delta formed by the rivers Ganges, Brahmaputra and Meghna. Situated on the lower end of the Gangetic West Bengal, 21°13’-22°40’ North and longitude 88°05’-89°06’ East, it is also the world’s largest estuarine forest. The Sundarbans is inhospitable, dangerous and monotonous.  Dense mangrove forests occupy 56 islands and the balance is under saline water which flows through numerous tidal channels and creeks. It is difficult to approach and even more difficult to spend time in. But for those who dare, it must be one of the most attractive and alluring places remaining on earth.
© Nik
Key to birding the Sundarbans is overcoming the geographic and physical hurdles. Though only a 100 odd kms from Kolkata city, Sajnekhali, an established tourist/visitor destination takes 5 - 6 hours to reach through a combination of road and water transport. In a landscape dominated by great tidal creeks and waterways, the only way to access and enjoy the area is on motorized boats which come in various sizes and shapes. Sundarbans is the home of swimming man eating tigers, estuarine crocodiles, sharks, poisonous snakes and pirates. Man fights for survival in great numbers by living off nature's bounty by accepting and fighting against these odds. The visitor has no choice but to stay within limits and out of trouble. This means that there is very little conventional bird-watching, more observations from water.
© Nikhil Bhopale
Buffy Fish Owl - a very rare resident
 But the dark and foreboding attractiveness of the mangroves also hides some of the most sought after birds in the world and a chance encounter with a Brown-winged Kingfisher, a Grey Headed Lapwing, a Pallas's Fish Eagle, a Lesser Adjutant or maybe a Mangrove Whistler is always a possibility ~ as is the unforgettable sight of the most secretive great cat in the world.
© sumit
Mudskipper
Birding is difficult not just because of the terrain but also because the density is not evident from the limited view one gets from a noisy boat. The fringes of Sundarbans play host to many local endemics and the visitor is well advised to spend time on land outside the core area before venturing into the heart of the National Park. Once inside the Park, the only access to land is at the Sajnekhali compound and the various Watchtowers you can visit. Remember that the watchtowers are inside wire cages and do not allow you to stroll in tiger-land.
© G Denzau
Masked Finfoot
How to reach:
Sundarbans is accessed from Kolkata ( Calcutta) by traveling either towards the South East or the South West. The South West route takes one through Diamond Harbour to Kakdwip and Namkhana. You can take a boat from these places or from Gangadharpur and visit Lothian Island and surrounding areas.
The South Eastern route is more popular. You drive 86 kms through wetlands and agricultural land to reach Sonakhali. You can take a 3 hour boat ride from Sonakhali jetty to Sajnekhali Tourist Lodge or cross over to Basanti. From Basanti you can take an auto-rickshaw ride to Gadkhali (11kms). At Gadkhali take the ferry to cross the Bidya river to arrive at Gosaba. A Cycle Rickshaw ride will take you to Pakhiralaya in about half hour. Sajnekhali is across the water from Pakhiralaya.
Where to Stay:
Accommodation is at Sajnekhali Tourist Lodge and new resorts at Gosaba and Bali Islands. Help Tourism's Bali Jungle Camp is  well appointed and comfortable.
© Sumit
Bali Jungle Camp
Jungle Camp arranges ex-Kolkata round trips and travel within the delta. The Sajnekhali Tourist Lodge is very basic and in need of serious renovation. Visitors often stay on board vessels that they arrange. Make sure you know what you are getting before you choose that alternative.

Ruddy Kingfisher
Contact: W.B. Tourism Development Corp. Ltd. at (033) 2248-8286 or 2248-7302 or the Tourism Centre at (033) 2248-5917/5168 for enquiry's or bookings. Help Tourism can be reached at www.helptourism.com
  1. Permits: Government of West Bengal has withdrawn the permit rules for foreign nationals for one year. This means that foreign nationals do not have to secure any special permit to visit Sundarbans, nor do they have to produce the copies of their passports and visas prior to the trip. They will just have to carry their originals and have to show those to the park authorities before entering the park. [Dated August 23, 2008]

VOTE FOR SUNDARBAN.

The Sundarbans is the largest single block of tidalhalophytic mangrove forest in the world. The name Sundarban can be literally translated as "beautiful jungle" or "beautiful forest" in the Bengali language (Sundar, "beautiful" and ban, "forest" or "jungle"). The name may have been derived from the Sundari trees that are found in Sundarbans in large numbers. Alternatively, it has been proposed that the name is a corruption of Samudraban But the generally accepted view is the one associated with Sundari trees.

The forest lies in the vast delta on the Bay of Bengal formed by the super confluence of theGanges, Brahmaputra and Meghna rivers across Saiyan southern Bangladesh and West Bengal, India. The seasonally-flooded Sundarbans freshwater swamp forests lie inland from the mangrove forests on the coastal fringe. The forest covers 10,000 sq.km. of which about 6,000 are in Bangladesh. It became inscribed as a UNESCO world heritage site in 1997, but while the Bangladeshi and Indian portions constitute the same continuous ecotope, ga these are separately listed in the UNESCO world heritage list as the Sundarbans and Sundarbans National Park, respectively. The Sundarbans is intersected by a complex network of tidal waterways, mudflats and small islands of salt-tolerant mangrove forests. The area is known for the eponymous Royal Bengal Tiger, as well as numerous fauna including species of birds, spotted deer, crocodiles and snakes.