Only Pakistani To Win Nobel Prize For Physics

abdus salam nobel prize physicist pakistan electroweak

Doctor Abdus Salam is the first and only Pakistani, so far, to receive a Nobel Prize in physics. He is also well known for the development of science and technology in his country.

For example: Salam was an advisor to the Ministry of Science in Pakistan from 1960 to 1974. He was the founding director of the Space and Upper Atmosphere Research Commission (SUPARCO).


Salam also played a key role in Pakistan's development of nuclear energy and contributed to the development of their atomic bomb project in 1972. Thus, he was often called the Scientific Father of Pakistan.

However, in 1974, Salam departed from his country, in protest, after the Parliament of Pakistan passed a bill declaring the members of Ahmadiya Muslim community, to which he belonged, non-Muslims.

In 1979, he won the Nobel Prize for physics alongside Sheldon Lee Glashow and Steven Weinberg, for the electroweak unification theory. Thus, after this extraordinary accomplishment, he once again became his nation's hero.


Salam continued to stay in England until his death in 1996. But, his dying wish was to be buried in his beloved nation. It was fulfilled and approximately 30,000 people attended his funeral prayers in Pakistan.

Work

In 1951, he obtained a PhD degree from the Cavendish Laboratory at Cambridge. His doctoral thesis earned him not only popularity and reputation but also an Adams Prize.

Salam then worked on the unification of electromagnetic and weak forces (from 1959 onwards) with Glashow and Weinberg.


In 1966, he proposed a hypothetical particle, when he showed the possible interaction between magnetic monopole and C-violation. He thus formulated the "magnetic photon".

In 1972, he collaborated with Indian-American physicist Jogesh Pati. They developed a theory of everything (GUT) known as the  Pati–Salam model.

How James Watt And Harry Potter Are Related

james watt harry potter physics fiction

James Watt was a Scottish physicist and inventor who was born on Jan 19, 1736 and strangely has a weird connection with Harry Potter films. Well, at least that's the intention of this post.

Just as Harry frequently has ache in the corner of his head (where he was scarred at birth), James Watt also is said to have had headaches all his life.

harry potter james watt physics fiction

Watt developed the concept of horsepower, a unit to measure the rate at which work is done. In his honor, SI unit of power is called Watt and one horsepower is 746 W.

A related meme had once gone viral on the internet.

harry potter physics james watt meme

Just the way actor Daniel Radcliffe said it did the trick.

Watt was also a pioneer in steam engine technology. He improved upon the old version and developed his own machine in 1770, which radically enhanced the efficiency and cost-effectiveness and ushered the Industrial Revolution in Europe.

In Harry Potter films, the steam engine plays a crucial role as it's what drives the Hogwarts Express. It was provided by West Coast Railways, a train operating company in Lancashire.


Plus, James Watt was Scottish and Harry Potter films have been majorly filmed in Scotland. In fact, Scotland is where J.K. Rowling began writing the books.

Watt was perhaps a magician in some sense. For example, he invented the copying machine in 1780, a technology far ahead of its time, similar to modern photocopy, but with ink. He also invented a machine for copying sculptures and medallions (like 3D printing).

His experiments in chemistry yielded chemicals with great industrial applications such as with good bleaching properties.


Lily, Harry's mother, was well versed in magic; a distinguished personality who stood up to bullies like James Potter. Watt's mother, Agnes, was also forceful in character and highly educated. James Watt is said to have inherited his mother's intellect.

Summing up, it almost feels like James Watt is the inspiration for Harry Potter. In a way. Well, for physics lovers, who also happen to be Potterheads, this is just a very good news!

Who are smartest physicists according to Lev Landau?

genius scale rank lev landau biography

Lev Landau was a Nobel Prize winning theoretical physicist who is known for his work in quantum mechanics and superfluidity. He was born on 22 January, 1908 to highly educated Jewish parents in Azerbaijan. His father was an engineer while his mother was a doctor.

It is no surprise then that Landau was a child prodigy. He learned to differentiate as well as integrate by the time he was 13 years old. His parents thought he was too young to attend university so he had to wait for another two years.


At age 16, he was allowed to join the Leningrad State University, from where he graduated with flying colors, in 1927. After this, he travelled the entirety of Europe, met and worked alongside renowned physicists of the time such as Bohr, Dirac and Pauli.

lev landau ranking scale biography

Having known and worked with them for some time, Landau devised a genius logarithmic scale. It is a 0-5 ranking of physicists based on the amount of contributions made. He could maintain this ranking system only until his death in 1968 but it still has some of the most notable names.

Since the scale is logarithmic, rank 1 physicist contributions are ten times more (as per Landau) than people ranked 2, and so on. In other words, the higher the rank, the less valuable the physicist is.

Rank 0 Isaac Newton

Rank 0.5 Albert Einstein

Rank 1

This has a list of physicists including Niels Bohr, Satyendra Nath Bose, Paul Dirac, Erwin Schrodinger, Wolfgang Pauli and Werner Heisenberg.


Rank 2.5 Lev Landau

This ranking system was so intriguing that other physicists continued it even after Landau's death. In 1965, Lev Landau was awarded the Nobel Prize. As a result, his ranking was improved to 2. After his death in 1968, he was granted an even higher ranking of 1.5.


In 2004, Russian physicist Vitaly Ginzburg ranked Richard Feynman in the 1 category. Physicist Hans Bethe was inducted alongside Landau in the 1.5 category.

Rank 3 Edward Witten

Rank 4.5 David Mermin

Rank 5 Mundane physicists

10 Discoveries By Newton That Changed The World

top ten isaac newton discoveries

Isaac Newton is one of the few names that will forever be enshrined in physics history and that too with a lot of glamour associated. Contributions of none other physicist match his, well, probably Einstein's, or not even his!? The following are Newton's ten most well-known works that changed the world later on.

Laws of motion

1. An object will remain at rest or move in a straight line unless acted upon by an external force.
3. For every action, there is an equal and opposite reaction.

Newton's three laws of motion, along with thermodynamics, stimulated the industrial revolution of the 18th and 19th centuries. Much of the society built today owes to these laws.

Binomial Theorem

Around 1665, Isaac Newton discovered the Binomial Theorem, a method to expand the powers of sum of two terms. He generalized the same in 1676. The binomial theorem is used in probability theory and in the computing sciences.

Inverse square law

By using Kepler's laws of planetary motion, Newton derived the inverse square law of gravity. This means that the force of gravity between two objects is inversely proportional to the square of the distance between their centers. This law is used to launch satellites into space.

Newton's cannon

Newton was a strong supporter of Copernican Heliocentrism. This was a thought experiment by Newton to illustrate orbit or revolution of moon around earth (and hence, earth around the Sun).

top ten discoveries by isaac newton

He imagined a very tall mountain at the top of Earth on which a cannon is loaded. If too much gunpowder is used, then the cannonball will fly into space. If too little is used, then the ball wouldn't travel far. Just the right amount of powder will make the ball orbit the Earth.

Calculus

Newton invented the differential calculus when he was trying to figure out the problem of accelerating body. Whereas Leibniz is best-known for the creation of integral calculus. The calculus is at the foundation of higher level mathematics. Calculus is used in physics and engineering, such as to improve the architecture of buildings and bridges.

Rainbow

Newton was the first to understand the formation of rainbow. He also figured out that white light was a combination of 7 colors. This he demonstrated by using a disc, which is painted in the colors, fixed on an axis. When rotated, the colors mix, leading to a whitish hue.

Top ten discoveries by isaac newton
Newton's disc

Reflecting Telescope

In 1666, Newton imagined a telescope with mirrors which he finished making two years later in 1668. It has many advantages over refracting telescope such as clearer image, cheap cost, etc.

Law of cooling

His law states that the rate of heat loss in a body is proportional to the difference in the temperatures between the body and its surroundings. The more the difference, the sooner the cup of tea will cool down.

Classification of cubics

Newton found 72 of the 78 "species" of cubic curves and categorized them into four types. In 1717, Scottish mathematician James Stirling proved that every cubic was one of these four types.

top 10 discoveries by isaac newton
some cubic curves (Wiki)

Alchemy

At that time, alchemy was the equivalent of chemistry. Newton was very interested in this field apart from his works in physics. He conducted many experiments in chemistry and made notes on creating a philosopher's stone.

Newton could not succeed in this attempt but he did manage to invent many types of alloys including a purple copper alloy and a fusible alloy (Bi, Pb, Sn). The alloy has medical applications (radiotherapy).

7 Facts About Johannes Kepler You Didn't Know

johannes kepler facts astronomy science

Johannes Kepler was a German astronomer who discovered the three laws of planetary motion. Apart from his contributions to astronomy, he is also known to have pioneered the field of optics. In this post, let's read some amazing facts about Kepler and his work.

Early Affliction

He suffered from small pox at a very early age. The disease left him with a weak eyesight. Isn't it wonderful then how he went on to invent eyeglasses for near-eye and far-eye sightedness?

Introduction to Astronomy

Kepler's childhood was worsened by his family's financial troubles. At the age of 6, Johannes had to drop out of school so to earn money for the family. He worked as a waiter in an inn.

In the same year, his mother took him out at night to show him the Great Comet of 1577 which aroused his life-long interest in science and astronomy.

Copernican Supporter

At a time when everyone was against the heliocentric model of the universe, Kepler became its outspoken supporter. He was the first person to defend the Copernican theory from both a scientific and a religious perspective.

Contemporary of Galileo

Galileo was not a great supporter of Kepler's work especially when Kepler had proposed that the Moon had an influence over the water (tides). It would take an understanding by Newton many decades later which would prove Kepler correct and Galileo wrong.

Pioneer of Optics

Kepler made ground-breaking contributions to optics including the formulation of inverse-square law governing the intensity of light; inventing an improved refracting telescope; and correctly explaining the functioning of the human eye.

Helped Newton

His planetary laws went on to help Sir Isaac Newton derive the inverse square law of gravity. Newton had famously acknowledged Kepler's role, in a quote: "If I have seen further, it is by standing on the shoulders of giant(s)."

Kepler's Legacy

There is a mountain range in New Zealand named after the famous astronomer. A crater on the Moon is called Kepler's crater. NASA paid tribute to the scientist by naming their exo-planet finding telescope, Kepler.

When Pioneer of Thermodynamics Was Rejected

james prescott joule thermodynamics

Sometimes an idea is so far ahead of the time that when proposed it is met with suspicion and mockery. This happened with English physicist and mathematician James Prescott Joule (1818–1889) when he tried to publish his concept of heat.


Joule was an avid reader and grew up interested particularly in the field of electricity. He and his brother experimented by giving electric shocks to each other. However, a long-time association with his father's brewery business drew him closer to studying the nature of heat.

In 1843, Joule identified heat as a form of energy. This idea was rejected by the Royal Society because at that time heat was considered to be a "material fluid" which flowed from hot to cold body.

Joule's concept posited that heat was not a fluid but rather a "vibration" from one molecule to another. But at that time (1840s) the existence of atoms and molecules was a disputed subject among scientists. Therefore, Joule's visualization of heat was deemed mere fantasy.


Despite initial rejection, Joule tried to demonstrate his idea mechanically in 1845. His experiment involved the use of a falling weight, in which gravity does the mechanical work, to spin a paddle wheel in an insulated barrel of water. The spinning increased the temperature of water.

james prescott joule thermodynamics heat apparatus

Thus, the experiment not only showed that work and energy were equivalent but also that potential energy of the falling weight was getting converted into heat, hence the rise in temperature. So, heat must be a form of energy.

Joule was laughed at in the beginning but he kept on trying, until his idea became common-sense and he was elected a fellow of the Royal Society in 1850.


He went on to work with renowned British physicist William Thomson, aka Lord Kelvin. Together, they developed the absolute temperature scale and published the Joule-Thomson effect, in 1852, a process which has applications in cooling appliances such as refrigerator and air conditioner.

Today, the SI unit of work (and energy) has been named Joule in his honor. He is also widely recognized as one of the founders of thermodynamics as his results led to the formation of the first law.

How Max Born Won Nobel Prize After Getting Suspended

max born quantum mechanics biography

In 1933, when the Nazi Party came to power in Germany, physicist Max Born, who was Jewish, was suspended from professorship at the University of Göttingen. It was a poor decision since under him Göttingen had become one of the world's most promising centres for physics.

Born had spent over 12 years at the University. Here, he developed the matrix mechanics with his assistant Werner Heisenberg. Furthermore, this was the place where he formulated an interpretation of the probability density function, which won him the Nobel Prize, almost 20 years later, in 1954.


Out of job, he accepted an offer from physicist C. V. Raman to go to Bangalore in 1935 where he taught at the Indian Institute of Science. Then, in 1936, he migrated to the University of Edinburgh where he was offered a permanent chair.

Born became a naturalized British citizen in 1939, one year before the second world war broke out in Europe. During this time, he helped as many of his remaining friends and relatives still in Germany get out of the country thus saving them from persecution.

Despite all the bad memories, Gottingen always remained especially close to his heart because it was there that he came under the guidance of the three most renowned mathematicians of the time: Felix Klein, David Hilbert and Hermann Minkowski.

Although Klein didn't approve of Born's particular interest in natural philosophy (physics) he was still impressed by his mathematical prowess. Hilbert especially identified Born's talent and soon hired him as an assistant. Born would often meet Minkowski at Hilbert's house where they would discuss the theory of relativity.

Here, at Gottingen, in 1922, Arnold Sommerfeld sent his student Werner Heisenberg to be Born's assistant. Three years later, they had formulated the matrix interpretation of quantum mechanics. It won Heisenberg his Nobel Prize in physics (1932).


A year later, Heisenberg wrote a letter to Born in which he said how he had delayed in writing to him due to a "bad conscience" that he alone had received the Prize for work done in collaboration. Born, however, did not mind at all as his contribution to quantum mechanics could not be changed by a "wrong decision" from the outside.

But Born would ultimately win the most coveted prize in 1954 after a fruitful career of 50 years. He was 72 years old at the time of winning. He died in 1970 and is buried in the same cemetery as David Hilbert. Born's life thus came full circle. In 2017, Google honored Born with a doodle on their home page.

Nominated 84 Times For Nobel Prize But Never Won

arnold sommerfeld genius facts

If there was anybody close to Einstein's genius, it was his compatriot Arnold Sommerfeld. And despite being 10 years Einstein's senior, Sommerfeld was more supportive of the new quantum theory and made many pioneering contributions to it.

Also, did you know that Sommerfeld served in the military for 9 years before becoming a full-time physics professor? Like that, following are 10 amazing facts from Arnold Sommerfeld's life as a tribute to the most under-appreciated physics brain of the 20th century.


1. Since childhood, Arnold Sommerfeld was a quick learner. He received his PhD in physics when he was only 22 years old.

2. He was among the first to acknowledge the validity of Einstein's relativity. His support helped it propel into more of an "accepted status" in the scientific community.

3. Sommerfeld received 84 nominations across 25 years for Nobel Prize in physics (more than any other physicist) but surprisingly, he never won.

4. Yet, he won many times through those he educated and inspired, including (but not limited to) Heisenberg, Pauli, Debye and Bethe.


5. He was the one who introduced the second and the third quantum numbers. They're important because of their use in determining the electron configuration inside an atom.

6. Einstein once told Sommerfeld: "What I especially admire about you is that you have pounded out of the soil such a large number of young talents."

7. Sommerfeld encouraged collaboration from his students. He would home tutor them or meet at a local café to discuss their doubts after a lecture. His successful teaching career was 32 years long.

8. Sommerfeld was also a traveler who traveled around the world in two years (1928-1929) with major stops in India, China, Japan and the US.


9. He wrote to Einstein shortly after Hitler took to power: "I can assure you that the misuse of the word ‘national’ by our rulers has thoroughly broken me of the habit of national feelings that was so pronounced in my case."

10. Sommerfeld died in 1951 in Munich after getting hit by a truck while he was walking with his grandchildren. He was 82 years old. In 2004, department of theoretical physics at the University of Munich was named after Sommerfeld.

Heisenberg and his views on quantum mechanics

werner heisenberg uncertainty principle quantum mechanics quotes

Werner Heisenberg was a German theoretical physicist who was awarded the Nobel Prize in 1932 for the creation of quantum mechanics. He was only 25 years old when he discovered the uncertainty principle. Although at the time Heisenberg did not understand his own work, so he handed it to his immediate supervisor, Max Born, and went on vacation.

Absurdity of nature

Heisenberg was one of the very first people to recognize the ridiculousness of quantum mechanics. It was mind-boggling because it did not agree with the existing physics. His discussions with Niels Bohr went through many hours till very late at night and ended almost in despair.

At the end of their talks, Heisenberg used to go for a walk in the neighboring park and repeated to himself again and again the question: Can nature possibly be so absurd as it seemed in the atomic experiments?

Heisenberg quipped: "The smallest units of matter are not physical objects in the ordinary sense; they are forms, ideas which can be expressed unambiguously only in mathematical language."

He derived inspiration from Greek and Eastern philosophies to arrive at some understanding of his work. "All things are numbers", a sentence attributed to Pythagoras especially attracted his attention. A conversation with Tagore about Indian philosophy also made some sense out of the ideas that seemed to him crazy.

Uncertainty principle

In Feb, 1927, Heisenberg wrote in a paper: The words "position" and "velocity" of an electron seemed perfectly well defined before and in fact they were clearly understood concepts within the mathematical framework of Newtonian mechanics.

But actually they were not well defined, as seen from the relations of uncertainty. The more precise the measurement of position, the more imprecise the measurement of momentum, and vice versa. In other words, there was complementarity between the two.

It's worth pointing out that the uncertainty is not a measurement problem but arises due to the wave nature of all quantum objects. Thus, it actually is a "fundamental property" of quantum objects and not a statement about the observational success of current technology.

The main problem was this: A physicist may be satisfied when there is a mathematical scheme and an interpretation of the experiment. But he also has to speak about his results to non-physicists who will not be satisfied unless some pictorial explanation is given in plain language.

Heisenberg's defence

Heisenberg said: "It is not surprising that our language should be incapable of describing the processes occurring within the atoms, for, it was invented to describe the experiences of daily life, and these consist only of processes involving exceedingly large numbers of atoms.

Furthermore, it is very difficult to modify our language so that it will be able to describe these atomic processes, for words can only describe things of which we can form mental pictures, and this ability, too, is a result of daily experience.

Fortunately, mathematics is not subject to this limitation, and it has been possible to invent a mathematical scheme – the quantum theory – which seems entirely adequate for the treatment of atomic processes; and for visualization."

His biggest opponent was Albert Einstein who did not endorse the uncertainty principle as a fundamental law of nature until his death. He had famously remarked: "God does not play dice with the universe" as a joke. Niels Bohr, an advocate of uncertainty principle, replied: "Don't tell God what he can and cannot do."
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