'Swiftly' taking our hard earned money

I would say that Maruti has done everyone in and must be laughing all the way to the bank. I sold my lovely Esteem for this piece of junk! The interiors are tacky, tyres are thin (screeching at corners) the suspension is very hard, as is the gear box...shifting from 5th to 4th is tedious at high speeds. For 5 lakhs, the VXI could have done much better. I have always been a Maruti person (6 cars in all) but I stop here. Maruti has lost a valuable fan. Shameful day for the company.

The One and Only SWIFT VDI

bought my Swift VDI on Feb 20th 2007. Before that i was in a dilemma whether to buy Swift or Hyundai Getz. After 3 months of my inability to decide, i was blessed with the arrival of Swift Vdi (diesel). I immediatly went for a test drive and WOW i was impressed. I was pleasently shocked by the Vdi, it had the best pickup. Once you cross 2rpm the turbo charger kicks in and you can feel the car take off. Swift has the best smooth looks around, in its segment (the rest are just so routine).

The sales guy bragged about very good mileage and all that, but seriously i never believed him for a sec (I was a little doubtful whether the car would still be so peppy after a few months or years). Anyway i loved the car and that was what mattered. I work in chennai and i travel an averege of 45 km per day in jam packed city traffic (only 1-2 gears). You will not believe that i get an amazing mileage of 15.8-16.2 in city. Every month or so i make an occasional trip to Bangalore. The highway sees me rip my swift at around 140 km per hr (Its sooo smooth).Yeah i do wish that the engine could have been more silent but cmon who's paying attention to the sound when your car is so charged up. My father owns a Ford Fiesta and a hyundai Accent. My swift is way more spacious than the accent.Unlike other cars i feel that the seating and the ride comfort of the car is excellent. when on the inside i donot feel that i'm in a small car at all.

Today after four months and 7600km with my Swift i can still fell that life in it when i drive it. I really wish that they would have come up with a Zdi version but i realise that the price would then be more that the next good sedan. If any of you car buyers need my advice i'd say if you are buying a car dont compromise with money and go for the lower versions cause its just not a car with out the full package. If you cannot afford i suggest you go for another model but the top version. Because once you buy your car and then feel that you should have done or bought something else then you have lost the real joy a car u like can give you. I bought my swift with ABS facility and i guess a powerful car needs ABS dont you think. Hoping that this review can be of some help to someone out there.

Maruti Suzuki Wagon R

Wagon R has been one of the most selling cars in India. Its tall-body design is best suited for tall people. Getting in and getting out of the car is not a problem for anyone. Its highly compact design and 1.1L peppy engine do wonders on high-traffic, narrow Indian roads. And above all, you get a factory fitted LPG kit in the Duo version and lots of savings on fuel bills.

Earth's Atmosphere Is Changing

Global warming poses real risks. The more energy we use, the more the planet warms up. Read about the effects of global warming. Energy from the sun drives the Earth's weather and climate, and heats the planet's surface. In turn, the Earth radiates energy back into space. Atmospheric greenhouse gases (carbon dioxide, water vapor and other gases) trap some of the outgoing energy, retaining heat somewhat like the glass panels of a greenhouse. Without this natural "greenhouse effect", temperatures would be much lower than they are now, and life as known today would not be possible. However, problems may appear when the atmospheric concentration of greenhouse gases increases.Since the beginning of the industrial revolution, atmospheric concentrations of carbon dioxide have increased by nearly 30%, methane concentrations have more than doubled, and nitrous oxide concentrations have risen by about 15%. These increases have enhanced the heat-trapping capability of the earth's atmosphere. Sulfate aerosols, a common air pollutant, cool the atmosphere by reflecting light back into space. However, sulfates are short-lived in the atmosphere and vary regionally.Scientists generally believe that the combustion of fossil fuels and other human activities are the primary reason for the increased concentration of carbon dioxide. Plant respiration and the decomposition of organic matter release more than 10 times the CO2 released by human activities. These releases have generally been in balance during the centuries leading up to the industrial revolution with carbon dioxide absorbed by terrestrial vegetation and the oceans.What has changed in the last few hundred years is the additional release of carbon dioxide by human activities. Fossil fuels burned to run cars and trucks, heat homes and businesses, and power factories are responsible for about 98% of U.S. carbon dioxide emissions, 24% of methane emissions, and 18% of nitrous oxide emissions. In 1997, the United States emitted about one-fifth of total global greenhouse gases.Estimating future emissions is difficult, because it depends on demographic, economic, institutional, policy and technological developments. Several emissions scenarios have been developed based on differing projections of these underlying factors. By 2100, in the absence of emissions control policies, carbon dioxide concentrations are projected to be 30-150% higher than today's levels.Global mean surface temperatures have increased 0.5-1.0°F since the late 19th century. The 20th century's 10 warmest years all occurred in the last 15 years of the century. Of these, 1998 was the warmest year on record. The snow cover in the northern hemisphere and floating ice in the Arctic Ocean have both decreased. Globally, sea level has risen 4-8 inches over the past century. Worldwide precipitation over land has increased by about one percent.Increasing concentrations of greenhouse gases are likely to accelerate the rate of climate change. Scientists expect that the average global surface temperature could rise 1-4.5°F (0.6-2.5°C) in the next fifty years, and 2.2-10°F (1.4-5.8°C) in the next century, with significant regional variation. Evaporation will increase as the climate warms, which will increase average global precipitation. Soil moisture is likely to decline in many regions, and intense rainstorms are likely to become more frequent. Sea level is likely to rise two feet along most of the U.S. coast.Rising global temperatures are expected to raise sea level, and change precipitation and other local climate conditions. Changing regional climate could alter forests, crop yields, and water supplies. It could also affect human health, animals, and many types of ecosystems. Deserts may expand into existing rangelands, and features of some of our National Parks may be permanently altered. Unfortunately, many of the potentially most important impacts depend upon whether rainfall increases or decreases, which can not be reliably projected for specific areas.Today, action is occurring at every level to reduce, to avoid, and to better understand the risks associated with climate change. (Well…at least theoretically it does…). Many cities and states across the world have prepared greenhouse gas inventories and many are actively pursuing programs and policies that will result in greenhouse gas emission reductions.The largest cities in the world are likely to be hit by rising sea levels - which could eventually flood large areas by more than a metre. Some countries will be turned to desert. Hundreds of millions of people will be short of fresh water by 2050. Other parts of the world will be hit by destructive storms and floods, costing billions a year in reconstruction. 400 000 square miles of Arctic ice have already melted in the last 30 years. A quarter of all animal and plant species could be wiped out within the next thirty.Most children alive today will find their future lives are deeply affected by new patterns of disease, extreme weather patterns, and by strict controls on energy and carbon use. Future generations will judge us by how we respond to global warming. Apocalyptic picture, isn’t it?So please do what is in your power trying to keep our planet clean, saving energy. Everything you do like that helps a little. It's your planet...

Recycling Saves Natural Resources

We know that recycling involves the processing and usage of the core elements of an old product for the production of new products. This helps in saving our natural resources to a great extent. For example, once an old newspaper is recycled we do not need to use the resource of another tree to produce new paper products. This way, proper recycling can help us preserve our natural resources for our future generations and maintain the balance of the nature.

Recycling Saves Environmental Conditions and Reduces Pollution

Recycling helps in preventing global climate change to a great extent. By minimizing the energy spent on industrial production, recycling also helps in reducing greenhouse gas emission. Some of the major fossil fuels used in most industries include coal, diesel, gasoline etc. All these emit harmful gases such as methane, sulfur dioxide, carbon-dioxide to the environment. The processing of fresh raw material also creates toxic materials which pollute the environment. By reducing the energy used, recycling also minimizes the amount of fuel usage which in turn reduces the amount of harmful pollutants in the environment.

Recycling Saves Energy

When new products are manufactured from the raw material obtained from recycled products, it saves a lot of energy which is consumed for the production. When new products are manufactured from ‘virgin materials’, the amount of energy consumed is much higher. Besides, the energy required to acquire and transport the ‘virgin’ raw materials from their origins or natural sources is also saved. Add to that the energy which is required to clean and protect the environment from the pollutant waste products, especially those which are non-biodegradable (plastic) and fill up the landfill areas.

Why is Recycling Important

The importance of recycling can be observed in multiple ways. If you are wondering in your mind as to "why I should recycle" then here are some causes which should convince you to do so.

Process of Recycling

The recycling process involves three stages. In the first stage the old products are collected and processed, where they are sorted, cleaned and made ready for recycling or manufacturing new products. The second stage involves the manufacturing of new products from the raw material obtained by the processing of the old products. Finally, the process ends with the purchasing of recycled goods by the consumers. The more people step forward to buy recycled products the better the success of the recycling process can be ensured. Buying recycled products will only increase when every individual will develop an awareness of the difference that can be made by utilizing their old household objects as raw materials to produce new goods and help the environment by recycling.

Importance of Recycling

Before you know about the importance and benefits of recycling and its relation to a better environmental condition, it is essential to understand what is recycling. Recycling refers to the process of collecting used materials which is usually considered as ‘waste’ and reprocessing them. In this process these used materials are sorted and processed to be used as ‘raw materials’ for the production of new products. Recycling varies from ‘re-use’ in the sense that while re-use just means using old products repeatedly, recycling means using the core elements of an old product as raw material to manufacture new goods. Some of the most common items that are recycled are plastic, glass, paper, batteries, aluminum etc.

What is Satellite TV

Satellite TV is the television system wherein communication satellites orbiting the Earth bring about the transmission of television signals. It is a wireless system that facilitates the relay of TV programs by means of satellite communication. In many countries around the world, satellite television services are used for providing the consumers with more number of TV channels and a wider range of services. Do you know when the first satellite TV signal was relayed? It was way back in 1962 that the first satellite television signal went from Europe to the Telstar satellite over North America. Anik 1, a domestic geostationary satellite of Canada was the first of its kind to carry television signals. From then, there was no looking back and the popularity of satellite television continues to rise.

How Does Satellite TV Work

It is so amazing that communication satellites enable us to watch television! How does it happen? How does satellite TV work? Read on to find the answers.
Satellite TV is a buzzword among the techno-buff community as well as the television viewers. How does satellite television work? How do satellites facilitate television-viewing? An understanding of the technology behind the working of a satellite TV can provide us with the answers. Let’s find them.

Mosquito survives after spending 18 months in space

A mosquito, whose larvae develops in humid environment, survived even under extreme temperatures and vacuum of the outer space, an indication that germination of life may also be possible from 'seeds' from other planets.
African bloodworm mosquito, whose larvae develop only in a humid environment, survived even after spending 18 months in the extreme temperatures and vacuum of the outer space in an experiment conducted.
The trial was jointly conducted by the Russian and Japanese scientists and further studies could substantiate the theory of germination of life on our planet from 'seeds' from other planets.
In the summer of 2007, Russian cosmonauts Fyodor Yurchikhin and Oleg Kotov placed a grey cylinder with 24 cups containing bloodworm mosquito's larvae, barley seeds, bacteria and other biological objects, on the outer surface of International Space Station (ISS).
18 months later, cosmonauts Sergei Volkov and Oleg Kononenko removed the cylinder and brought it to Earth. "We brought it back to earth. It is alive, and its feet are moving," Anatoly Grigoriev, vice-president of the Russian Academy of Sciences was quoted as saying by RIA Novosti.
The mosquito did not get any food and was subjected to extreme temperatures ranging from minus 150 degree Celsius in the shade to plus 600 degree in the sunlight. Under the 'Biorisk' experiment the scientists from the Russian Science Academy's Institute of Medical and Biological Problems are assessing the impact of cosmic radiation on living organisms.
The unique Biorisk experiment made it possible to study the impact of vacuum, subzero and hot temperatures and radiation on biological objects and inferences drawn from it could prove the 'panspermia' hypothesis that "seeds" of life already exist all over the Universe and that life on earth may have originated through these "seeds".
First, they studied bacteria and fungi till a Japanese scientist suggested studying mosquitoes. "Professor Takashi Okuda from the National Institute of Agro-Biological Science drew our attention to the unique, although short-lived, African mosquito (bloodworm), whose larvae develop only in a humid environment," Grigoriev said.
Rains are rare in Africa, where puddles dry up almost instantly. However, this mosquito is well-adapted to adverse local conditions, existing in a state of suspended animation when vital bodily functions stop almost completely.
When suspended animation sets in, water molecules are replaced by tricallosa sugar, which leads to natural crystallisation. During experiments on the earth the larvae were sprayed with acetone, boiled and cooled down to minus 210 degrees Celsius, the temperature of liquid nitrogen.
Amazingly, they survived all these hardships. The Japanese scientists also studied bloodworm mosquito's DNA and found that it could be switched on and deactivated in 30 to 40 minutes. "This is facilitated by the crystallisation of biological matter," Vladimir Sychev of the Institute of Medical and Biological Problems says.
According to him scientists were interested in this mechanism, which makes it possible to assess the potential of living organisms subjected to multiple strains in outer space.

Facts on the Human Brain

Did you know the brain of 30% of 80-years-old people performs as healthily as young adults? Here are a few interesting and must-know facts on human brain.
Though the size of human brain is small it is a complex organ. The functions of the brain were found by the ancient Egyptians and Greeks in 400 BC. It was Hippocrates who first discovered that brain played an important role in sensation and intelligence. The research into the functioning of the brain gathered momentum from 0 AD to 1500 Ad. During this time period physicians began to recognize neurological disorders and treatments for the same. During this period, many surgical instruments were invented. Today, many researches are being conducted on various processes of the brain. There are many studies focused on disciplines such as neuroscience, cognitive science, behavioral science, psychology and so on. We look at a few interesting facts on the human brain.
A Few Neuro-Architecture Facts on the Human Brain
The central organ of the human body, brain, is anatomically divided into three parts called the forebrain, midbrain and the hindbrain. Here are a few interesting facts on the size and dimensions of the brain.
At the time of birth, the size of the brain is approximately 400gms and later as one becomes an adult, the size increases to approximately 1400gms. Another interesting fact is the height of an adult brain is 3.6 inches and the length is 6.3 inches. The width is 5.5 inches.
The cerebral cortex of the brain consisting of a frontal lobe, temporal lobe, occipital lobe and the parietal lobe occupies 85% of the human brain. The composition of the brain is 10-12% lipids, 8% protein, 77% water, 1% carbs, 2% soluble organics and 1% inorganic salt.
Half of the neurons in the brain reside in the cerebellum. But cerebellum occupies only 10% of the human brain.
Did you know that number of neurons in the human brain is equivalent to the total number of stars in our galaxy? That is 100 billion. There are 186 million more neurons in the left hemisphere of the brain than the right hemisphere.
Are you aware of the fact, approximately 1000ml of blood flows through the human brain every sixty seconds? In a minute the human brain absorbs 46 cubic centimeter of oxygen from the blood. Only 6% of the oxygen is used by the white matter of the brain while the gray matter absorbs 94%.
A Few Interesting Facts on the Human Brain
Did you know a human brain could survive up to 15 minutes without oxygen?The weight of the brain is just 2% of an individuals total body weight. However, it consumes 20% of total energy. It is believed this energy is more than enough to light a 25 watt bulb.
Can you imagine human brain processes 70,000 thoughts on an average in a day?
The weight of Albert Einstein’s brain was 1,230 grams that is less than an average weight of the human brain.
The rate of growth of neuron during pregnancy is 250,000 neurons in a minute.
These are a few of the interesting facts on the human brain. You should also know lavender would help to reduce insomnia and jasmine oil has the ability to restore mental alertness.

Take off on whole new adventure

Do you think that the earth is a unique planet? Have you ever wondered if there’s life beyond earth? What if you could design your own planet? If questions like this fill your mind, think no more. Simply log on to www.astroventure.arc.nasa.gov or type astro-venture into Google search and enter the site from here.
This is an amazingly interactive yet educational site supported by NASA, which offers you a chance not only to learn more about Earth itself but also to build a whole new world — by yourself. Yes, you can build your own universe and house it with things that grab your fancy.
What’s more, this site isn’t just restricted to the study of outer space. You can learn more about Geology, Biology and Atmospheric Science as well. Here you can forget your mundane life and morph into roles of real NASA scientists, searching for and building planets with all the characteristics for human habitation.
Moreover, you can chat online with NASA scientists, while learning more by using fact sheets, trading cards and the like. So if you are anywhere between Class V and Class VIII, put on your seatbelts and takeoff into a whole new world!

Earth's Atmosphere Is Changing

Global warming poses real risks. The more energy we use, the more the planet warms up. Read about the effects of global warming.
Energy from the sun drives the Earth's weather and climate, and heats the planet's surface. In turn, the Earth radiates energy back into space. Atmospheric greenhouse gases (carbon dioxide, water vapor and other gases) trap some of the outgoing energy, retaining heat somewhat like the glass panels of a greenhouse. Without this natural "greenhouse effect", temperatures would be much lower than they are now, and life as known today would not be possible. However, problems may appear when the atmospheric concentration of greenhouse gases increases.
Since the beginning of the industrial revolution, atmospheric concentrations of carbon dioxide have increased by nearly 30%, methane concentrations have more than doubled, and nitrous oxide concentrations have risen by about 15%. These increases have enhanced the heat-trapping capability of the earth's atmosphere. Sulfate aerosols, a common air pollutant, cool the atmosphere by reflecting light back into space. However, sulfates are short-lived in the atmosphere and vary regionally.
Scientists generally believe that the combustion of fossil fuels and other human activities are the primary reason for the increased concentration of carbon dioxide. Plant respiration and the decomposition of organic matter release more than 10 times the CO2 released by human activities. These releases have generally been in balance during the centuries leading up to the industrial revolution with carbon dioxide absorbed by terrestrial vegetation and the oceans.
What has changed in the last few hundred years is the additional release of carbon dioxide by human activities. Fossil fuels burned to run cars and trucks, heat homes and businesses, and power factories are responsible for about 98% of U.S. carbon dioxide emissions, 24% of methane emissions, and 18% of nitrous oxide emissions. In 1997, the United States emitted about one-fifth of total global greenhouse gases.
Estimating future emissions is difficult, because it depends on demographic, economic, institutional, policy and technological developments. Several emissions scenarios have been developed based on differing projections of these underlying factors. By 2100, in the absence of emissions control policies, carbon dioxide concentrations are projected to be 30-150% higher than today's levels.
Global mean surface temperatures have increased 0.5-1.0°F since the late 19th century. The 20th century's 10 warmest years all occurred in the last 15 years of the century. Of these, 1998 was the warmest year on record. The snow cover in the northern hemisphere and floating ice in the Arctic Ocean have both decreased. Globally, sea level has risen 4-8 inches over the past century. Worldwide precipitation over land has increased by about one percent.
Increasing concentrations of greenhouse gases are likely to accelerate the rate of climate change. Scientists expect that the average global surface temperature could rise 1-4.5°F (0.6-2.5°C) in the next fifty years, and 2.2-10°F (1.4-5.8°C) in the next century, with significant regional variation. Evaporation will increase as the climate warms, which will increase average global precipitation. Soil moisture is likely to decline in many regions, and intense rainstorms are likely to become more frequent. Sea level is likely to rise two feet along most of the U.S. coast.
Rising global temperatures are expected to raise sea level, and change precipitation and other local climate conditions. Changing regional climate could alter forests, crop yields, and water supplies. It could also affect human health, animals, and many types of ecosystems. Deserts may expand into existing rangelands, and features of some of our National Parks may be permanently altered. Unfortunately, many of the potentially most important impacts depend upon whether rainfall increases or decreases, which can not be reliably projected for specific areas.
Today, action is occurring at every level to reduce, to avoid, and to better understand the risks associated with climate change. (Well…at least theoretically it does…). Many cities and states across the world have prepared greenhouse gas inventories and many are actively pursuing programs and policies that will result in greenhouse gas emission reductions.
The largest cities in the world are likely to be hit by rising sea levels - which could eventually flood large areas by more than a metre. Some countries will be turned to desert. Hundreds of millions of people will be short of fresh water by 2050. Other parts of the world will be hit by destructive storms and floods, costing billions a year in reconstruction. 400 000 square miles of Arctic ice have already melted in the last 30 years. A quarter of all animal and plant species could be wiped out within the next thirty.
Most children alive today will find their future lives are deeply affected by new patterns of disease, extreme weather patterns, and by strict controls on energy and carbon use. Future generations will judge us by how we respond to global warming. Apocalyptic picture, isn’t it?
So please do what is in your power trying to keep our planet clean, saving energy. Everything you do like that helps a little. It's your planet...

Effects of land pollution

* Infects our water supply* kills wild life* acid rain kills crops, trees and other plants.* not enough room to replant forests.* harmful biological effects on human health and on the food chain of animals, birds, and marine life.* Destruction of vegetation that provides food and shelter.* It can seriously disrupt the balance of nature, and, in extreme cases, can cause human deaths.* Pesticides, which include herbicides and insecticides, can damage crops; kill vegetation; and poison birds, animals, and fish. Most pesticides are nonselective; they kill or damage life forms other than those intended. For example, pesticides used in an effort to control or destroy undesirable vegetation and insects often destroy birds and small animals. Some life forms develop immunity to pesticides used to destroy them. When that happens, we develop more potent chemicals and the cycle repeats itself.

Some ideas on reducing land pollution include:

* Use safer alternatives to pesticides.* Reduce, Reuse, Recycle.* Buy organically grown fruits and vegetable. (i.e. those that are grown with natural fertilizers such as compost or composted manure)* Take, furniture, old clothing and appliances in good working condition to collection depots and centers.* Try to purchase materials that are sold in reusable containers.* Look for products that have very little packaging to throw away.* Buy biodegradable products.* Buy in bulk to reduce packaging.

Causes of land pollution

* Increase in urbanization. Construction may use up forestland. More constructions means increase in demand for raw materials like timber. This leads to the exploitation and destruction of forests. There is more demand for water. Reservoirs are built leading to the loss of land.* Increase in agricultural land. As the human population grew there was a greater demand for food. This required more land for agriculture. Forests were cut down for this purpose.* Domestic waste. Every single day, tons and tons of domestic waste is dumped ranging from huge pieces of rubbish such as unused refrigerator to fish bones. If all these wastes are not disposed of properly, the damage they can do to the environment and humankind can be devastating. While waste collected from homes, offices and industries may be recycled or burnt in incinerators, a large amount of rubbish is neither burnt nor recycled but is left in certain areas marked as dumping grounds. With the rising standards of living, we throw away more things and there is an increase in the quantity of solid waste. This has given rise to problems as new dumping grounds have to be found.* Agricultural activities. Besides domestic waste, pesticides and herbicides used by farmers to increase crop yields also pollute the land when they are washed into the soil.* Industrial activities. Industrial activities also are a contributing factor to land pollution. For example, in open cast mining, huge holes are dug in the ground and these form dangerously deep mining pools. Heaps of mining waste are left behind and these waste often contain several poisonous substances that will contaminate the soil.
Pollution sources include, coal-fired power plants, chemical plants, oil refineries, nuclear waste disposal activity, large animal farms, metals production factories, plastics factories, and other heavy industry.