Three scientists have been awarded the Nobel Prize in Chemistry for developing quantum dots.
These three scientists live in America.
The Nobel laureates include Mongi G Bawendi, Lewis E Bruce and Alexey I Ekimov who will share the prize of 8.24 lakh pounds.
What are quantum dots?
Most people have probably seen tiny crystals on their TV sets whose tiny dots combine to form colors.
In fact, these quantum dots are very tiny and their number can be tens of millions in one millimeter.
Russian physicist Alexei I. Ekimov is credited with the discovery of quantum dots in the 1980s, and later Lewis E. Bruce, an American chemist, discovered that crystals could be grown in liquids.
After this, Mongi G. Bawendi, a native of Paris, discovered a method of making quantum dots particles in a more controlled manner.
These quantum dots are also used in medical imaging and solar panels for better use of cancer drugs and surgery.
The Nobel Prize in Physics for the year 2023 has been awarded to scientists who conducted 'experiments' to capture the 'smallest moments' of light. The scientists who received the award are Pierre Augustini, Ferenc Krause and Ann L'Hullie.
These scientists demonstrated through experiments how extremely tiny waves of light can be structured and used to measure the rapid process of energy change of an electron.
Professor Pier Augustini teaches at Ohio University in the United States. Professor Ferenc Krause teaches quantum optics at the Max Planck Institute in Germany. Professor Ann L'Hullie teaches at a university in Sweden.
US space agency NASA's spacecraft Perseverance has landed on the surface of Mars.
To reach Mars, this spacecraft has traveled about half a billion kilometers from the Earth seven months ago. 'Perseverance Rover' has landed on Mars in a deep crater, which is close to the equator of the planet Zzero.
Rover tweeted a photo after landing on the surface of Mars. This rover will examine the land of an old dried up lake, as well as any signs of micro-organisms on Mars billions of years ago, and send them to Earth.
Just as the spacecraft landed on the ground of Mars, the smiles on the faces of the scientists sitting at NASA's Control Center. This is NASA's first mission since 1970 to find traces of life on Mars.
Mission Deputy Project Manager Matt Wallace said, "The good news of the spacecraft is that I think it is in perfect condition."
This six-wheeled rover will excavate the stones and rocks of Mars in the next 25 months to search for evidence that indicates that life was once possible here.
It is believed that there used to be a huge lake near Jezero billions of years ago. And where there is water, there is a possibility that there must have been life there too.
Astronauts at NASA received indications that the 'Perseverance Rover' had landed safely on Mars at 8:55 pm (GMT).
On a normal day, he would probably hug and shake his hands on happy occasions. But due to the Corona virus protocol, social distance is being followed here. However, the members of the mission expressed their happiness by fighting fists with each other.
This was followed by two low-resolution images of Mars taken by the rover's engineering cameras on the screen. Photographs show that there was a lot of dust in front of the camera lens but the ground appeared in front and back of the rover.
The analysis conducted after the landing reveals that the rover has traveled two kilometers towards the southeastern part of the delta region at the zzero.
"Our rover is in a flat area," says Alan Chan, who leads the landing team. So far the vehicle is tilted at 1.2 degrees. We found a place to take off the rover and we easily landed our rover on the ground. I am very proud of my team for this remarkable work.''
NASA Interim Administrator Steve Jarczek also congratulated the team of scientists for this success.
He has said, "The team has done a great job. What a wonderful team that has done this by overcoming the difficulties of landing the rover on Mars amidst the challenges of COVID-19.
Mike Watkins, director of NASA's Jet Propulsion Lab, said, "For us these early days are very special because we, as this rover, landed a representative of the Earth on a place where no one has ever gone before .''
It has never been easier to land on Mars. But NASA has become an expert in this matter. However, the Perseverance team spoke very carefully about their work on Thursday, 18 February 2021.
This is the second one-ton weight rover launched on Mars by the US Space Agency NASA.
Helicopter will fly on Mars?
Earlier, the Curiosity rover was launched in 2012 on another crater on Mars.
Controllers will work on a new rover in the coming days and try to see if any part of the rover has been damaged in the process of landing on the ground.
To take pictures, the mast of persistence and its main camera system should be raised upwards. Also, the rover has been transported to Mars through a special software, this software will also have to be changed so that the program can be run to run the rover on the surface of Mars.
With this, Perseverance is expected to take several photographs of the surface of Mars in the next week so that scientists can understand the surrounding area better.
One of the purposes of this rover is to fly a low-weight helicopter to Mars. Perseverance has taken a small helicopter with him. The rover will attempt to fly this helicopter which will be the first such flight on another planet.
In terms of Mars, it can be as long as the Wright Brothers Moment, exactly when the Wright brothers first flew to Earth and realized their dream of flying.
Only then will the robot begin to carry out the main work of this mission and move to the Zzero where the delta region is.
The delta areas are formed by rivers when they fall into the sea and leave sediments with them on the shore. Scientists are hoping that the deltas of Jezero are made up of these sediments, which could be huge signs of life in any area.
Perseverance will sample the delta and move toward the edge of the crater.
Investigation through satellites has revealed that there are carbonate rocks at this place which are considered to be very good at containing biological processes on Earth.
The Persistence Rover has all the tools that can study all of these structures intensively at the microscopic level.
Why is the Zzero crater special?
The forty-five-kilometer-wide crater on Mars is named after a town in Bosnia-Herzegovina. The word Zzero in the Slovak language means lake, which is enough to explain why there is a special interest in this name.
Zzero consists of a variety of rocks consisting of clay and carbonate rocks. They have the ability to save organic molecules. Scientists believe that they can find those molecules in the Zzero of Mars that can tell about the signs of life there.
Those sediments are important in this, which is being called 'bathtub ring'. According to scientists, this must have been the coastal area of the old lake of Mars. At this place, perspiration can be found in those sediments called stromatolitis on Earth.
"In some lakes you find microbial mats and carbonates interact with each other to form larger structures," says Dr. Bryony Horgan, a member of the science team associated with Purdue University in the West Lafayette area of the American province of Indiana. And these are produced layer by layer. If we find any such structure in Jazero then we will go directly to the same. Because they can prove to be the mine of the mysteries of astrobiology of Mars.''
The interesting rocks that Perseverance will discover will keep parts of them in thin tubes placed on the left side of the ground.
NASA and the European Space Agency have drawn up a plan to bring these cylinders back to Earth. This project will cost a lot of money.
It will be a very complicated endeavor that will use another rover, a Mars rover, and a giant satellite to bring the rocks of the Zzero to Earth.
Scientists believe that bringing these samples back to understand Mars is a logical step. If persistence finds something that resembles a bio-signature, that evidence will still be investigated.
In such a situation, by bringing those rocks back, the earth will be examined in a state of the art way so that all the speculations related to whether or not there is life on Mars will be stopped.
Four hundred years later, Jupiter and Saturn, two planets in the solar system, came so close on 21 December 2020 that the distance between the two was just 0.1 degrees.
According to scientists, they can be seen with naked eyes and also with binoculars or telescopes.
This astronomical event is occurring after 17 July 1623.
After this view will be seen on 15 March 2080. Also 21 December 2020 is the shortest day of the year.
The US space agency NASA says that it is not rare for two large planets to come close in our solar system.
While Jupiter passes every 20 years from its neighboring planet Saturn, it is special to come so close to it.
Scientists say that the distance between the two planets will be only 0.1 degree from their point of view, even though this distance will be millions of kilometers.
Dr Crawford at the Institute of Astronomy at the University of Cambridge told the BBC, "The weather is not looking great so this is a valuable opportunity".
If the weather conditions remain favorable then it can easily be seen around the world after sunset.
Where and when will it appear?
The best view of this event will be seen in the northern part of Britain on the night of 21 December 2020 as the sky will be clear there.
This view will not be as clear in the southern areas as the sky will be mostly cloudy.
Planetary astronomer Doctor James Odonohue tweeted where and at what time Jupiter and Saturn would be closest in the sky.
Planetary astronomer Doctor James Odonohue tweeted that at which time Jupiter and Saturn would be closest in the sky on 21 December 2020 and 22 December 2020.
Los Angeles: 09:43
New York: 12:43
Rio de Janeiro: 14:43
London / UTC: 17:43
Paris / CET: 18:43
Istanbul: 20:43
Dubai: 21:43
New Delhi: 23:13
Tokyo: 02:43 (22 December 2020)
Sydney: 04:43 (22 December 2020)
Is this the star of Bethlehem?
Some astronomers and theologians believe so.
Erik M. Vanden Eckel, Professor of Religion at Ferrum College in Virginia, stated in an article that because of the time this event is happening, many speculate that "whether this could be the same astronomical event as in the Bible Is, the incident that brought knowledgeable people to Joseph, Mary and newborn Jesus.
It is said that at the time of Christ's birth, a star appeared in the sky which informed the people about the birth of Jesus Christ and showed the way to get there. Seeing this, three wise kings from the east also reached Bethlehem to offer them, to honor them.
It is also known as Bethlehem's Tara or Christmas Tara. It is described as a divine event.
Says Doctor Crawford, "Two thousand years ago people knew a lot about what was happening in the night sky, so it is not impossible that the Bethlehem star resembled the event of approaching two planets."
The planets orbiting around the Sun are not a rare occurrence but they are special.
Astrophysicist Professor Tim O'Brien at the University of Manchester says, "It is great to see planets close to each other, it happens often but the planets are as close as possible to this event."
Two large planets present in the solar system and some visible nightly shining bodies have not come so close in the last 800 years.
Professor O'Brien says, "These planets must be setting in the southwestern region, so you have to leave as soon as the sky is dark."
"None of us are going to live on earth for the next 400 years, so keep an eye on the weather and if you get a chance, come out and see this place."
China's Chang E-5 vehicle has returned to Earth by taking samples of stone and soil from the lunar surface.
For the first time after the lunar missions of Apollo of America and Luna of the Soviet Union, a country has brought samples from the lunar surface.
These samples will provide new information about the surface of the Earth's satellite and its past.
Chang's E-5 vehicle landed in the interior of Mongolia at around 1.30 pm local time on 17 December 2020.
Continually increasing its capacity in space, China considers the success of this mission a major achievement.
The Chang E-5 mission has been China's third successful lunar mission in the past seven years.
The astronauts who went to the moon from the American Apollo spacecraft, and the robotic Luna mission of Soviet Russia, collected about 400 kg of soil and stones from the lunar surface.
All these specimens brought from the moon are about three billion years old.
Chang E-5 Mission
The Chang E-5 was launched by a spacecraft from Wenchang station in southern China on 24 November 2020.
First this mission reached the moon and it placed itself in the orbit of the moon and started orbiting the moon.
Later it was divided into two pieces - the first service vehicle and the return module which stayed in the lunar orbit and the second moon lander which gradually moved towards the lunar surface.
On December 1, 2020, this 8.2-ton orbiter made a soft landing close to the designated space on the lunar surface.
The mission was launched in Mons Rumkere, a place near the volcanic hills of the moon.
A few days after landing, the vehicle sent the first color photographs from the lunar surface.
It took a picture of the moon on the surface, with its feet near the horizon.
A camera, radar, a drill and spectrometer were fitted to the Chang E-5 lander to collect samples of the lunar surface soil and stones.
This lander could collect stones and mud weighing up to two kilos. It took the collected specimens to an orbiting mission that sent it further to Earth.
Prior to the Chang E-5 mission, China sent two more vehicles to the moon.
Chang E-3 in 2013 and Chang E-4 Moon Mission in 2019. Both of these included a lander as well as a small moon rover.
The Chang E-5 was a complex mission compared to these two.
It is believed that the samples brought from Mons Roomcare will be 1.2 to 1.3 billion years old, which means they will be newer than the samples brought earlier. Experts believe that this will give more information about the geological history of the moon.
With the help of these samples, scientists will also be able to accurately prepare the 'chronometer', which is considered the age of the planets of the solar system.
It depends on the number of volcanoes present on the surface of a planet or satellite.
According to scientists, the planet that has more volcanoes on its surface will be older, that is, it will be older (for this, scientists count the number of volcanic craters). However, it is necessary to see different places.
Scientists had been instrumental in preparing the 'chronometer' from samples sent to the Apollo and Luna missions.
Now the samples sent to the Chang E-5 mission will help them to develop it more accurately.
A major experiment was being completed in the United Arab Emirates in March 2020 when worldwide lockdown was underway. Within 40 days, a piece of barren land here was filled with sweet juicy watermelons.
For the United Arab Emirates, which imports 90 per cent of the need for fresh fruits and vegetables, this is an extraordinary achievement. With the addition of soil and water, the dry and hot desert of the United Arab Emirates turned into a field filled with lush fruits.
It was not so easy. These watermelons were possible only with the help of "nano clay" liquid. The story of this technique of reclaiming soil began 1,500 miles (2,400 kilometers) west of here two decades ago.
Yields began to decline in the 1980s in a part of the Nile Delta in Egypt. Despite being close to the desert, farming was done here for thousands of years.
It is because of its unmatched fertility that the ancient Egyptians used their energies to develop a powerful civilization, whose progress still makes the world astonished after thousands of years.
For centuries, the yields of farms that eradicate the hunger of the communities have declined within 10 years.
Why did yields fall?
Every year at the end of summer, the Nile River floods, which spreads into the Egyptian Delta.
When scientists began investigating the reduction of yields, it was found that the flood waters carried minerals, nutrients and raw clay particles from the basins of East Africa that spread throughout the delta region.
These fine particles of mud used to make the land there fertile. But then why did these particles disappear?
The Aswan Dam was built on the Nile River in southern Egypt in the 1960s. Two and a half miles (four kilometers) wide, this massive structure was built to create hydroelectricity and control floods to make farming easier to manage and crops are not wasted.
This dam inhibited the nutrients that came with the flood. Within a decade, delta yields declined. When soil scientists and engineers discovered the problem, a solution began to be found.
What is Nano Clay Technology?
"This is what you can see in your garden," says Ole Siewertsen, chief executive of Desert Control, a Norwegian company developing nano-clay technology.
"Sandy soil does not retain the moisture required for plants. By adding raw soil in the right proportion, this situation changes dramatically.''
In the words of Siewartsen, his plan is to move the barren desert land to "hope from the sand" using Nano clay.
Increasing yields by using mud is not a new thing. Farmers have been doing this for thousands of years. But working with heavy, thick soil has historically been very labor-intensive and may damage the underground ecosystem.
Tilling the plow, digging and turning the soil also cause damage to the environment. Organic elements buried in the soil are exposed to oxygen and are converted to carbon dioxide in the atmosphere.
Soil scientist Saran Sohi of Edinburgh University says that farming also disrupts the complex biome of the soil.
"An important part of soil biology is the symbiotic relationship between plants and fungi that serve as an extension of the root system of plants."
Root has life
Sohi says, "Fine structures even from the hair, called hyphae, are helpful in transporting nutrients to the roots of the plant."
In this process the fungi attach to the clay mineral particles. They maintain soil structure and limit erosion.
These structures are broken by digging or cultivating soil. It takes time to get them ready again. Till then, there is a possibility of damage to the soil and loss of nutrients.
If you mix very little solution of raw clay in sand, then it does not have any effect. If it is mixed too much, the soil may accumulate on the surface.
After years of testing, Fluid Dynamics engineer Kristian P. Olsen of Norway created a perfect mixture that, when mixed in sand, turns it into life-giving soil.
He says, "Not a single formula works everywhere. 10 years of testing in China, Egypt, UAE and Pakistan have taught us that every soil test is necessary, so that we can try the right nano clay recipe.''
Balance of soil solution
A large part of nano-clay research and development took place in creating a balanced liquid formula that could percolate into fine particles (nano particles) of the local soil, but would not flow so quickly that it would be lost completely. Its purpose is to show the effect of magic in the soil 10 to 20 cm below the root of the plants.
Fortunately, when it comes to sludge mixing in sand, a law of soil chemistry comes into play, called the Cationic Exchange Capacity of the soil.
"Sludge particles are negatively charged, while sand particles are positively charged," says Siewertsen. They join each other when they meet.''
A 200 to 300 nanometer thick layer of soil surrounds every particle of sand. This dispersed area of sand particles keeps water and nutrients from sticking to it.
"Raw soil acts like biological elements," says Siewartsen. It helps in retaining moisture. When these particles become stable and start providing nutrients, then you can sow the crop within seven hours.''
The technology has been developing for nearly 15 years, but has been in operation at the commercial level for the last 12 months, when Dubai's International Center for Bioseline Agriculture (ICBA) independently tested it.
Sivartsen says, "Now we have scientific evidence from its effectiveness. We want to build many mobile mini factories in 40 ft (13 m) containers so that we can bring as much change as possible.''
"These mobile units will manufacture liquid nano clo locally where needed. We will use the soil of the same country and employ people from the same region.''
The first such factory will produce 40 thousand liters of liquid nano clay in one hour, which will be used in City Parkland, UAE. This technology will save water up to 47 percent.
Cost reduction challenge
It currently costs around $ 2 (1.50 lb) per square meter, which is acceptable for small farms in the rich UAE.
But to make it effective in Sub-Saharan Africa, where it really matters, Sivertsen needs to reduce costs.
Most farmers in Africa do not have enough money to fix their land in this way. In this way the effect of the treatment of the ground lasts for about 5 years. After that the mud solution will have to be re-poured.
Sivertsen feels that large-scale work will reduce costs. Their goal is to bring the cost to $ 0.20 (0.15 lb) per square meter of land.
If you buy fertile land instead, it costs from $ 0.50 to $ 3.50 (0.38 pound to 2.65 pound) per square meter. In the future, it will be cheaper to make barren land fertile in this way than to buy a farm.
Siewartsen is also helping with the Great Green Wall Project. For this, he is working with the UN Convention to Combat Desertification. Walls of trees are being erected to prevent the spread of desert in North Africa.
Other ways to increase yield
Raw clay solution will be mixed in the sandy land of North Africa and Middle East, but what will we do in the rest of the world?
Globally, organic matter in the soil has decreased by 20 to 60 percent. Nano clay is suitable only for making sandy soil fertile.
What will you do if you have saline, non-sandy soil? Biochar can help you here.
This permanent form of carbon is prepared by burning organic materials with pyrolysis method. In this process, pollutants such as carbon dioxide are released very little because oxygen is kept out of the combustion process.
This creates a porous and light charcoal-like substance. Sohi says this is what a soil without nutrients needs.
She says, "The organic content of soil always changes, but a healthy soil has a certain level of permanent carbon."
"Biochars are permanent carbons that help to hold the nutrients important for plant growth." It takes decades for permanent carbon elements to develop in the soil, but biochar makes it happen immediately.''
"Biochar, along with other organic matter such as organic manure, can fix soil structure that leads to plant growth."
This can help restore soil that is depleted of organic matter due to over-farming or mining or contamination, provided that the poisonous elements present in the soil are remedied.
Other soil improvement techniques include the use of vermiculite. It is a phyllosilicate mineral which is extracted from rocks. It spreads by heating.
Being a sponge, it can absorb three times more water than its weight and can maintain it for a long time.
Putting it near the root of the plants keeps the moisture there, but it requires digging the soil, which is its downside.
Nutritional testing
In the United Arab Emirates, local community people are reaping the benefits of converting the desert into fertile land.
Vegetables and fruits grown using Nano Clay proved to be of great use in the Covid-19 lockdown. About 200 kg of watermelon, zucchini and bajra crops were grown in 0.2 acres (1,000 sq m) of land, which is enough for a house.
"The lockdown in the United Arab Emirates was very stringent in which imports had declined," says Siewertsen. Many people were unable to get fresh fruits and vegetables.''
"We worked with the ICBA and Red Crescent team to prepare fresh watermelons and zucchini."
Sivertsen also wants to test nutrients in crops prepared in this way, but will have to wait until the next crop.
China has successfully launched another spacecraft to the lunar surface.
The robotic moon mission Chang E-5 has made a soft landing close to the designated space on the lunar surface.
It is believed that this spacecraft will collect samples of soil and stones of the lunar surface in the next few days and send them to Earth for examination.
This mission was to be launched in Mons Roomcare, then there is a place near the volcanic hills of the moon.
The camera, radar, a drill and spectrometer fitted to the Chang E-5 lander sent to collect samples.
This lander can collect stones and soil weighing up to two kilos. The samples collected will lead to an orbiting mission that will send it forward to Earth.
44 years before Chang E-5, the Luna 24 mission of the Soviet Union brought 200 grams of soil from the surface of the moon to Earth.
A week ago the launch of the vehicle was covered live by Chinese TV channels but the landing of the mission was not shown on the TV channel.
This news was shown on TV only once the mission successfully landed on the moon. Also, the pictures of the moon's surface taken by the mission at the time of landing were also broadcast on TV.
The Chinese Space Agency has said that the landing took place on December 01, 2020 at 23:11 local time.
China has been congratulated by the US Space Agency on the success of China's moon mission.
Senior NASA official Dr. Thomas Zerbuchen has said that he hopes internationally researchers on the moon will also get an opportunity to analyze the samples sent to Earth.
He said, "We hope that after sending samples of soil and stone from the lunar surface to the earth, everyone will benefit from its research." The research of this very important specimen will also benefit the international science community.''
The 8.2-ton Chang E-5 was released from Wenchang station in southern China on 24 November 2020 via a spacecraft.
A few days ago, this mission reached the moon and it placed itself in the orbit of the moon and started circling the moon. Later it was divided into two pieces - the first service vehicle and the return module which stayed in the lunar orbit and the second lander which gradually moved towards the lunar surface.
Prior to the Chang E-5 mission, China had sent two more moon missions, Chang E-3 in 2013 and Chang E-4 Moon mission in 2019. Both of these included a lander as well as a small Moon Rover.
So far, astronauts from the US Apollo spacecraft to the moon during the moon mission and Soviet Russia's robotic Luna program have collected about 400 kg of soil and stones from the lunar surface, but most were missions that involved astronauts.
All these specimens brought from the moon are about three billion years old.
It is believed that the samples brought from Mons Roomcare will be 1.2 to 1.3 billion years old, which means they will be newer than the samples brought earlier. Experts believe that this will give more information about the geological history of the moon.
With the help of these samples, scientists will also be able to accurately prepare the 'chronometer', which is known the age of the planets of the solar system.
It depends on the number of volcanoes present on the surface of a planet or satellite. According to scientists, the planet which has more volcanoes on its surface will be more old, that is, its age will be more. However, it is necessary to see different places.
Scientists had been instrumental in preparing the 'chronometer' from samples sent to the Apollo and Luna missions. Now the samples sent to the Chang E-5 mission will help them to develop it more accurately.
According to reports from China, the work of collecting samples from the lunar surface will be done for a few days and the samples will be transported to the already existing service vehicle and return module in the lunar orbit.
According to the plan, the return module can land in the Sijiwang Gay meadows in the interior of Mongolia. With this, Chinese astronauts will also return.
Doctor James Carpenter, science coordinator for human and robotic exploration at the European Space Agency, says the Chang E-5 is a highly complex mission.
He says, "I think what they are doing is a fantastic job." From the first mission of Chang E till now, he has taken one step after another in a planned manner and has enhanced his ability to explore space.''
India tested hypersonic scramjet technology off the coast of Odisha on 7 September 2020, developed by the Defense Research and Development Organization (DRDO).
The Defense Research and Development Organization (DRDO) in India has successfully tested hypersonic technology.
The hypersonic technology Demonstrator Vehicle (HSTDV) designed in India will be used to carry long-range missiles and hypersonic missiles.
It was successfully dispatched from Doctor APJ Abdul Kalam Launch Center at Wheeler Island, Orissa on 7 September 2020.
DRDO said on this occasion that through this mission, DRDO has shown its capability with complex technology and it will act as a foundation for making NextGen (Advanced) Hypersonic Vehicle.
The DRDO fired a missile using the hypersonic technology demonstration vehicle that went into the atmosphere and achieved speeds up to Mach-6.
The DRDO has described it as a major achievement in defense technology. But what is this technique? How will it be helpful in India's defense system?
What is hypersonic speed?
This is a technique in which a missile can be launched at hypersonic speed.
According to popular mechanics, in the language of science, hypersonic is called 'supersonic on steroids' ie faster than faster speed.
Supersonic means faster than the speed of sound (MAK-1) and hypersonic speed means at least five times more speed than supersonic. Its speed is called MAK-5, that is, five times the speed of voice.
The hypersonic speed is the speed where the molecules of the molecule present in the air surrounding the fast moving object break down and disintegrate.
The DRDO says that the vehicle launched first went up to 30 km in the sky, and then caught the speed of Mach-6.
What is Scramjet technology?
Before understanding this, India's scientist Gauhar Raza says, we have to first know about one of the important principles of Newton's theory.
The third principle of Newton's theory of motion states that 'every action always has an opposite and opposite reaction'. This means that when the fuel is burnt inside the rocket and its gas gets out, its response is a rapid push to the rocket (vehicle) which increases its speed. This is called jet propulsion.
In the initial stages, the fuel made by mixing oxygen and hydrogen is burnt and the fuel inside the rocket has to be kept.
In the 1960s, a technique was thought of in which oxygen could be taken from the atmosphere rather than being placed in a rocket to burn fuel. This technique is called RAMjet technology.
By 1991, the then Soviet Union proved that oxygen could not be reached from outside to sonic speed at high speeds but it was difficult to reach supersonic speeds, for this we would need scramjet technology.
In this new technology, the rocket takes oxygen from the atmosphere and increases its speed. Its advantage is that the rocket does not need double fueling.
But this technique can only be used within the atmosphere. If the rocket escapes from the atmosphere, then there is a risk of this technology failing. This technique was first used by the Soviet Union in 1991 and claimed to have achieved the speed of Mach.
After several years of testing of the Soviet Union, the US successfully tested this technology, after which China has successfully tested it.
In such a situation, India has become the fourth country in the world to use Scramjet technology.
Use of scramjet technology
This technique can be used in rockets and missiles. Three things are important in any missile -
Speed - How many speeds does the missile reach? How strong can the scramjet technology push the missile forward? If the push was so strong that it moved the missile out of the atmosphere, there would be no oxygen and it would be useless.
Time to burn fuel - how long does the fuel burn? How long is he able to maintain the speed of the missile? Fatally, how long can fuel continue to burn?
Ability to hit the target - This technique can be difficult to accurately hit the target with high speed because of whether the missile or rocket is able to reach its target properly. It is also difficult to track at such a speed. When the missile is separated from the vehicle, it should be properly separated and go to the right target, it is very important.
Gauhar Raza says that this technology will bring two major benefits to India. Firstly, it will contribute a lot in the defense sector as the time to reach the target of the missile will be reduced.
Secondly, it will now be possible to save fuel while sending the rocket, especially as long as the rocket is in the atmosphere. This will reduce the weight of the vehicle.
The United States and Britain have accused Russia of testing a weapon-like projectile in space. The US State Department termed it as 'in orbit anti satellite weapon'.
Earlier, Russia's Ministry of Defense had said that Russia is using new technology to test equipment in space. Now Russia has accused the US and Britain of distorting the truth and said that it is not a weapon.
The United States has previously raised questions about Russia's satellite movements in space. However this is the first time Britain has made such allegations.
Christopher Ford, US Assistant Secretary of International Security and Non-Proliferation, said, "Such action is a threat to the peaceful use of space and increases the possibility of generating trash in the space, which is important for satellite and space systems." , On which the world depends, is in great danger. ''
General J. J., head of the US Space Command Raymond said that there is evidence that Russia has tested anti-satellite weapon in space.
He added, "This is another proof of Russia's constant efforts to develop and test space-based systems." And this is in line with Russia's public military doctrine of the use of weapons to put the US and its allies in space at risk. ''
Air Marshal Harvey Smith, head of Britain's Space Directorate, issued a statement saying, "This type of action poses a threat to the peaceful use of space and also poses the risk of debris accumulating in space that is the satellite and the entire space." Can damage the system on which the whole world depends. ''
Only four countries in the world - Russia, USA, China and India - have demonstrated anti-satellite missile technology capability so far.
India demonstrated its capability last year by hitting one of its satellites.
Last year, India killed the Low Earth Orbit (LEO) satellite 300 kilometers away in space. This was a pre-determined goal and was achieved within three minutes.
It was named 'Shakti Mission' and was operated by DRDO. Scientists say that this achievement has given India immunity. If someone destroys the satellite of India, India is also capable of doing so.
India had targeted the satellite at comparatively lower altitudes. This height was 300 kilometers while in 2007 China destroyed one of its satellites at an altitude of more than 800 kilometers. The 300 km altitude is below the International Space Station (ISS).
However, the NASA chief said that 24 pieces of destroyed Indian satellite waste have gone over the ISS.
Jim Brydenstein said, "This has created dangerous waste and it has even gone above the ISS." Such activity will prove unfavorable for future astronauts. ''
Pallava Bagla, a science expert, says, "Countries are becoming dependent on the satellite, the economy of countries has started connecting to the satellite somewhere. If one country wants to do harm to another country, then it can do this work by damaging the satellite, it has been discussed for a long time.
Bagla further explains, "When there are so many satellites and the economy starts to depend on them, what is your approach?" Either you create something that no one can destroy your satellite, or tell the other that if you attack our satellite, then we can also attack your satellite. ''
On the current steps taken by Russia, Bagla says, "America is moving forward, they have a full space command, in addition to the Air Force, Army and Navy, they are also preparing for an army in space." It is natural that Russia will also do something. ''
Bagla believes that this is a competition between countries which has been happening before and will continue.
None of the countries that have the capability to drop the satellite have yet attacked the enemy's satellite. They have been used so far to demonstrate just vigor.
But experts believe that it should not be understood that they will not be used in the future.
According to scientist Gauhar Raza, any technology that can be used will be useful in both peace and war.
According to him, "the role of space is going to be important. Just like his role in the First and Second World Wars after the plane was built. ''
Raza further states, "The role of space in the wars that will take place now will be large only because with the help of it, the other country can be crippled."
Russia has said that the satellite test it did in space was not a weapon.
Russia's defense ministry dismissed the accusations of the US and Britain, accusing them of manipulating the facts.
The Russian Defense Ministry issued a statement saying, "The tests conducted on July 15 have not posed any threat to any other spacecraft. And it has not violated any international law.''
Russia said that it is using new technology to monitor and test Russia's space equipment.
Earlier Britain and America had said that they are worried about these activities of Russia.
Britain and the US had alleged that Russia launched something like a weapon from a satellite in space.
The head of Britain's space directorate issued a statement saying, "We are concerned about the way Russia has tested one of its satellites by launching something like a weapon."
The statement said that such action is a threat to the peaceful use of space.
The US had earlier expressed concern about Russia's satellite.
Air Marshal Harvey Smith, head of Britain's Space Directorate, issued a statement saying, "This type of action poses a threat to the peaceful use of space and it also poses the risk of debris accumulating in space that is the satellite and the entire space Can damage the system on which the whole world depends.''
He said, "We urge Russia to abstain from such tests further." We also urge Russia to continue to work constructively with Britain and other allies to promote responsible attitude in space.''
According to BBC Defense Correspondent Jonathan Bell, Britain has first accused Russia of carrying out satellite tests in space, and this happened just a few days after the Intelligence and Security Committee in Britain said in a report that Britain The government had failed miserably to address the threat from Russia.
Fear of space war?
After this incident, a new type of arms race in space can give rise to concern and many other countries are also investigating the technology which can be used as a weapon in space.
The US has said that it is the same satellite system of Russia about which it had expressed concern in the year 2018 and also questioned this year when the US accused Russia of having a satellite close to the US satellite. having had.
Regarding this latest development, the head of the US Space Command, General J. Raymond, said that there is evidence that Russia has tested an anti-satellite weapon in space.
General Raymond said that Russia has launched a new thing in Orbit via satellite.
He said, "This is another proof of Russia's constant efforts to develop and test space-based systems. And this is in line with Russia's public military doctrine of the use of weapons to put the US and its allies in space at risk.''