5 Quotes By CV Raman, India's Nobel Laureate

cv raman nobel prize indian scientist physics

CV Raman was an Indian physicist who won the Nobel Prize in 1930. His discovery of the "Raman Effect" has extensive use in chemistry to provide a structural fingerprint by which strange molecules can be identified. Raman used to say "Ask the right questions, and nature will open the doors to her secrets."

Raman was born into an orthodox South Indian Brahmin family but his interests in the sciences kept him away from religious or spiritual activities. Eventually he described himself as an agnostic. Following are some amazing quotes by the first Indian Nobel laureate in science, CV Raman:

1. There is no Heaven, no Swarga, no Hell, no rebirth, no reincarnation and no immortality. The only thing that is true is that a man is born, he lives and he dies. Therefore, he should live his life properly. (1934)

Many started referring to Raman as an atheist, which he denied.

2. If there is a God we must look for him in the Universe. If he is not there, he is not worth looking for. I am being looked upon in various quarters as an atheist, but I am not. The growing discoveries in the science of astronomy and physics seem to be further and further revelations of God. (1945)

3. In a conversation with Mahatma Gandhi, Raman said "Mahatma ji, religions cannot unite. Science offers the best opportunity for a complete fellowship. All men of Science are brothers."

Raman was also active politically. He was famous for being an advocate of women's rights.

4. I have a feeling that if the women of India take to science and interest themselves in the progress and advance of science as well, they will achieve what even men have failed to do. Women have one quality--the quality of devotion. It is one of the most important passports to success in science.

5. As a political activist, Raman said: It seems to me that the real danger before our country is the crushing down of individual freedom and initiative by the steamroller of government authority. Democracy without freedom for the individual is a sham and a delusion. (1954 interview)

You can judge that CV Raman was not only a pioneering scientist but also a great thinker whose thoughts were progressive and way ahead of the time. Raman was the first Indian to win Nobel Prize in science who contributed immensely to the idea of agnosticism.

Anne L'Huillier Becomes Fifth Woman To Win Physics Nobel Prize

physics nobel prize 2023 Anne L'Huillier

After Madame Curie (1903), Maria Goeppert-Mayer (1963), Donna Strickland (2018), Andrea Ghez (2020), now Anne L'Huillier has become the fifth woman to win a Nobel Prize in physics (2023). She shared the prize with Pierre Agostini and Ferenc Krausz.

According to the official Nobel Prize website, the three scientists are "being recognized for their experiments, which have given humanity new tools for exploring the world of electrons inside atoms and molecules".

Anne L'Huillier is a French-Swedish physicist who leads an attosecond physics group at Lund University which studies the movements of electrons in real time using extremely short pulses of light.

What is attosecond?


An attosecond is one quintillionth of a second or 1 attosecond equals 0.000000000000000001 second - an unimaginably short amount of time.

This year's laureates’ experiments have produced pulses of light so short that they are measured in attoseconds. These pulses can be used to capture pictures of atoms and molecules.

In simple words, the three scientists have created a very high-shutter-speed camera. If a normal camera is used to film a racing car, the picture will be blurry. But high shutter speed camera can "freeze" motion and capture a good image.

Why is this important?


Eva Olsson, chair of the Nobel Committee for physics has said: “We can now open the door to the world of electrons. Attosecond physics gives us the opportunity to understand mechanisms that are governed by electrons."

This technology will also help in inventing slick and more efficient electronic gadgets. Another possible application is to study molecular level changes in the blood that lead to diseases.

About Anne L'Huillier


Anne was born 1958 in Paris, France. She got her Masters degree in mathematics but switched to experimental physics for her PhD. Anne completed her doctorate in 1986 from Pierre and Marie Curie University. In 1994 she moved to Sweden and joined Lund University.

5 Amazing Inventions By Physicists We Use Every Day

5 science inventions we use in daily life, examples of physics in every day life

Did you know that one of the first video games was invented by a physicist? Why do you have to put your bags through a machine when you enter airport? In this post, we will look at five simple or somewhat complicated inventions by physicists that are used in daily life.

Although, from Wi-Fi to smart TV - physics is everywhere around us in the form of modern technology. The following are inventions we rarely talk about, or are thankful for, despite making use of them on regular basis.

1. Lever


Archimedes said, “Give me a firm place to stand and a lever and I can move the Earth." That was never tested but a lever is put to use in many forms today: Stapler, a pair of scissors and seesaw. There are different classes of levers:

a) Class I lever is when fulcrum is between load and effort. Example: Seesaw.
b) Class II lever is when load is between fulcrum and effort. Example: Door.
c) Class III lever is when effort is between fulcrum and load. Example: Stapler.



2. Video games

Physics has had an important impact in the early development of video games. In 1958, physicist William Higinbotham created what is thought to be the first video game. It was called Tennis For Two, a very simple game that shaped the history of computer games.

3. Electric generator

Physicist Michael Faraday invented the first electric motor in 1821. Shortly after, Faraday invented the electric generator, based on electromagnetic induction discovered by him. This is used to generate electrical power - which in turn is used to run electrical appliances.

When Faraday first presented induction, he was asked by some politician or reporter: What use is it in the practical world? To this Faraday replied, What use is a newborn baby?

4. Battery


While Faraday invented a way to generate electrical power by fluctuating magnetic fields, another physicist Alessandro Volta had invented a way to store electrical power in 1800. In honor of Volta, the SI unit of electric potential is called Volt. Today, almost all the toys that children play with use batteries.

5. X-ray

Some say that Nikola Tesla discovered x-rays by accident. Others credit Wilhelm Roentgen for inventing a way to generate x-rays in 1895. Whatever the case may be, did you know that x-rays are not only used in healthcare but also in the security industry? Every time your luggage passes through a security machine, an officer can see what is inside your bags.

Who Was Nobel Laureate Irène Joliot-Curie?

irene curie - daughter of marie curie winner of nobel prize chemistry

"One must work seriously, be independent and not spend life just having fun; that is what our mother - Marie Curie - always told us, but never that science was the only career worth pursuing."

Irène Joliot-Curie [1897-1956] was a French chemist and physicist. She was the elder daughter of Pierre Curie and Marie Curie, and a Nobel laureate, like her parents - continuing the Curie legacy.

Early life


Irene and her younger sister Eve lost their father Pierre Curie early on in 1906, when he had a tragic accident. Madame Curie was left alone to raise the two daughters.

marie curie with daughters irene and eve
Madame Curie with daughters Irene and Eve


Irène was great when it came to science and mathematics, her mother chose to focus on home schooling instead of the more conventional public school route.

Marie formed a local entity called "The Cooperative" with other distinguished French scholars, in which nine students that were children of the most eminent personalities of France took admission. Irene was part of that club.

Children were encouraged to learn not only the sciences but also engage in cultural experiences, play music, study foreign languages, etc.

While a teenager, Irene joined her mother in laboratory as an assistant. Curie taught her daughter - "Life is not easy for any of us. So what of it? One must have confidence and believe that they are gifted for something, and that this thing, at whatever cost, must be attained.

Marriage


Jean Frédéric Joliot was a French chemical engineer who wanted to work with Madame Curie, winner of two Nobel Prizes. He became an assistant to Marie Curie at the Radium Institute. Joliot fell in love with Irène, and soon after their marriage in 1926 - they both changed their surnames to Joliot-Curie.

Work as a couple


Similar to Pierre and Marie Curie, daughter Irene worked alongside husband Jean, in the laboratory. In 1933, the couple became the first to calculate the accurate mass of the neutron, which was discovered in 1932.

It is an alchemist's dream to turn one element into another. In 1934 Joliot-Curies used their knowledge of chemistry and realized that dream. They created radioactive nitrogen from boron, radioactive isotopes of phosphorus from aluminum, and silicon from magnesium.

By then, radioactive materials were used in medicine - it was a growing industry. Their techniques allowed radioactive elements to be created quickly, cheaply, and in abundance. Today these materials are even used in the treatment of cancer.

For their pioneering work, Joliot-Curies won the Nobel Prize in 1935, as a couple, replicating the success of Pierre and Marie Curie three decades prior to this. This added to the Curie family legacy of five Nobel Prizes.

Death


Much like her mother, Irene died of over exposure to radioactive materials. She was diagnosed with leukemia in 1946 as she had been accidentally exposed to polonium in 1946. Irene died in 1956 aged 58.

As Irene was an atheist, her family asked not to conduct a religious ceremony for her death. Her children, daughter Helene and son Pierre, went on to become notable scientists - physicist and biochemist respectively.

5 Biopics Like Oppenheimer Everyone Should Watch

5 biopics on scientists physicists movies that are like oppenheimer

Did you enjoy the performances by Cillian Murphy and Benny Safdie as Robert Oppenheimer and Edward Teller, respectively? The depiction by Christopher Nolan has won praises from audiences and critics alike.

If you liked Oppenheimer, the following are five other biopics on scientists that you might like:

1. Theory of Everything (2014)


The Theory of Everything is set at the University of Cambridge, as it shows the life of the English theoretical physicist Stephen Hawking, who is well known for his work on black holes.

The movie also details the romantic life of Hawking with Jane Hawking, who was married to the scientist for 30 years. More than astrophysics, this film is about hope, positivity and love.

2. Infinity (1996)


Infinity is a biographical drama film about physicist Richard Feynman. You must remember Feynman from Oppenheimer, played by Jack Quaid. In this movie, Feynman was played by Matthew Broderick, who also directed and co-produced the film.

biopics on scientists movies like oppenheimer

Richard Feynman was a Nobel laureate who is widely known today as the physicist who played the Bongo. In Oppenheimer, as the Trinity Test succeeded in the morning, Feynman could be seen playing his favorite musical instrument.

3. Einstein and Eddington (2008)


This is a historical film that featured David Tennant - doctor who - as British scientist Sir Arthur Stanley Eddington, and Andy Serkis as Albert Einstein. It is the story of Einstein's general theory of relativity as it developed in the backdrop of world war.

4. Radioactive (2019)


Radioactive is a British biographical drama film starring Rosamund Pike as Marie Curie. Curie was not only an acclaimed chemist but also a physicist - who won Nobel Prizes in both the sciences. She is the only person to have that honor.

marie curie biopics like oppenheimer  movies like oppenheimer

Marie Curie was widely respected across the scientific community. Einstein considered Curie as his idol. Marie Curie is known for her discovery of elements like Radium and Polonium. This movie is a must watch who wants to learn more about her life struggles.

5. Tesla (2020)


What a brilliant performance this was by Ethan Hawke playing the role of Nikola Tesla - Serbian engineer and physicist. Anyone who wants to understand the genius and flaws of Tesla should definitely give this movie a watch.

If you are among the very few who don't know who Nikola Tesla is ... he is the inventor of such technologies like remote control and alternating current electrical system. This movie shows a different side to Tesla no one knows.

How Rutherford Became Father of Nuclear Physics

how rutherford became father of nuclear physics

"It is JUST AS surprising - as if a gunner fired a shell at a single sheet of paper and for some reason or other, the projectile BOUNCED BACK."

This is how New Zealand physicist Ernest Rutherford described the result of alpha particle scattering experiment - conducted by his students Geiger and Marsden.

Introduction


Geiger and Marsden aimed high speed alpha particles at a very thin gold foil - it was only 1000 atoms thick. Around the gold foil was a zinc sulphide screen which glowed every time alpha particles would hit it.

If Thomson's plum pudding model of atom were correct, the fast moving and relatively heavier alpha particles would have passed straight thought the target, since electric field generated by evenly distributed charge is very minimal.

rutherford model of atom vs thomson model



But the experiment revealed that a few alpha particles were deflected by small angles, while 1 in 20,000 particles got deviated by angle greater than 90 degrees.

rutherford model of atom, gold foil alpha experiment



Rutherford set out to explain these unusual findings by creating a new model of atom, because Thomson's model had failed.

Early life and career 


Ernest Rutherford [1871-1937] was a multi-talented student who did phenomenally well in mathematics, catching everyone's attention at his school as a consequence.

He won the scholarship to study at Canterbury College, University of New Zealand, where he participated not only in the lab but also in the debating society.

Rutherford was the head boy in college and played the rugged sport of rugby. He completed three degrees in this college - ba, ma and bsc.

Thereafter, he travelled to England in order to study under the guidance of J. J. Thomson at the Cambridge University. Rutherford worked with cathode ray tubes under Thomson's mentorship. 

In 1899, he heard about Henri Becquerel's discovery of radioactivity and became interested in exploring alpha and beta decay. Rutherford was among the first to prove that alpha particles were Helium nuclei.

"All science is either physics or stamp collecting." Rutherford used to say, but ironically he won the Nobel Prize in chemistry in 1908 for his pioneering work with on the chemistry of radioactive substances.

Discovery of Nucleus 


As discussed earlier, alpha particle scattering experiment was conducted by Rutherford, Geiger and Marsden in the year 1909, by passing alpha particles through a thin gold foil.

Rutherford argued that since most of the particles passed straight through the gold foil, the atom must be made up of mostly empty space - not a positive soup as Thomson had thought.

In fact, the atom is about 100,000 times the diameter of the nucleus. It is like putting a grain of sand in the middle of a soccer ground!

Positive charge must be localized, Rutherford argued, in a very small point at the center of atom, which explained bouncing back in a small fraction of alpha particles, since positive positive repel.

Negative charges in the atom must be located somewhere on the outskirts ... which explained smaller deflections.

rutherford father of nuclear physics


Summing up


By creating a new improved model, Rutherford became the father of nuclear physics, as he initiated a whole new branch of physics. Scientists decided to probe further into the nucleus and many subatomic particles were discovered as a result.

Upon the discovery of atomic nucleus, Rutherford said: "I have broken the machine and touched the GHOST OF MATTER." But he regretted not being able to explain something deeper - "when we found the nucleus, we found the basis of everything, the greatest secret of all - except of life."
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