Five Quotes By Stephen Hawking On Religion

Stephen Hawking was one of the most brilliant minds of the 20th century who made fundamental contributions to the theory of black holes. Hawking is well known to the general public by his record-breaking book A brief history of time, which sold over 25 million copies.

Hawking (1942–2018) was given just a few years to live in his twenties, as he was struck by the paralyzing motor neuron disease in 1963. Not only did he beat the odds, but also revolutionized physics for next half a century.

When Hawking ended his bestselling book with the sentence: If we discover the theory of everything... it would be the ultimate triumph of human reason, for then we would know the mind of God, he raised quite a few eyebrows. Hawking later explained that he had used the word "God" figuratively.

On numerous occasions, Hawking had commented that even if God were to be real, he would be bound by the rules of physics. Therefore, is the idea of an all powerful creator even necessary, Hawking wondered often.

For example, Hawking told New Scientist in 2007: (1) I'm not religious in the normal sense. I believe that the universe is governed by the laws of science. The laws may have been decreed by God, but God does not intervene to break the laws.

In 2011, Hawking would go on to say: (2) We are each free to believe what we want and it is my view that the simplest explanation is there is no God. There is probably no heaven, and no afterlife either. We have this one life to appreciate the grand design of the universe, and for that, I am extremely grateful.

And it is true that Hawking lived life to the fullest. His life threatening disease did not hinder his goals and aspirations. Hawking said, I believe that disabled people should concentrate on things that their handicap doesn’t prevent them from doing and not regret those they can’t do.

In an interview to The Guardian, Hawking remarked on the question of death: (3) I regard the brain as a computer which will stop working when its components fail. There is no heaven or afterlife for broken down computers. That is a fairy story for people afraid of the dark.

On the question of creation, Hawking is clear: (4) Because there is a law such as gravity, the universe can and will create itself from nothing. Spontaneous creation is the reason there is something rather than nothing, why the universe exists, why we exist. It is not necessary to invoke God to light the blue touch paper and set the universe going.

It may be a coincidence but Stephen Hawking was born on the same day that Galileo Galilei died in 1642. It was Galileo, the father of modern physics, who laid the foundations of science and religion debate, building upon his inner contradictions as a deeply religious man.

Hawking continued the great legacy more than 300 years later. According to him, there is a fundamental difference between religion, which is based on authority and science, which is based on observation and reason. This is also the view held by such greats as Dirac and Feynman. 

(5) We are just an advanced breed of monkeys—Hawking adds—on a minor planet of a very average star. We are so insignificant that I cannot believe the whole universe exists for our benefit (which is the view that religion has). But we can understand the Universe, and that makes us something very special.

5 Niels Bohr Quotes On Quantum Mechanics

Niels Bohr was a Danish physicist who made pioneering contributions to understanding atomic structure and quantum theory, for which Bohr was recognized with a Nobel Prize in 1922. Bohr was an active participant in the new quantum theory revolution that shook the foundations of classical physics.

Einstein, who was not ready to accept Heisenberg's uncertainty principle, as one of the cornerstones of modern physics, commented: God does not play dice with the universe. Bohr made peace with the uncertainty principle by developing the principle of complementarity.

According to complementarity, particles have certain pairs of interdependent properties that cannot all be observed or measured simultaneously. For example: position and momentum make such a pair.

Bohr regarded complementarity as an essential feature of quantum mechanics. It is said that Bohr replied to Einstein, who preferred the determinism of classical physics over the probabilistic new quantum physics: (1) "Stop telling God what to do."

In 1920, Bohr met Heisenberg for the first time. Bohr said, (2) What is it that we humans depend on? We depend on our words... Our task is to communicate experience and ideas to others. But when it comes to atoms, language can be used only as in poetry. The poet, too, is not nearly so concerned with describing facts as with creating images and establishing mental connections.

Some physicists depended on mathematical analysis to make sense of the quantum world. However, Bohr was not satisfied. (3) Even the mathematical framework helps nothing, I (Bohr) would first like to understand how Nature avoids the contradictions. (1927)

Bohr said further: Our experience in recent years has brought light to the insufficiency of our simple mechanical conceptions and, as a consequence, has shaken the foundation on which the customary interpretation of observation was based.

We can still use the objectifying language of classical physics to make statements about observable facts. But we can say nothing about the atoms themselves.

In the 1927 Solvay conference, Bohr and Einstein went head-to-head on the metaphysical and philosophical implications of quantum mechanics. Two legends, one defending the new-age probabilistic physics and another fighting for classical determinism. At the end, it was Bohr who emerged victorious and successfully established the probabilistic character of quantum measurement.

Niels Bohr wrote in 1934: (4) Isolated material particles are abstractions, their properties being definable and observable only through their interaction with other systems. Everything we call real is made of things that cannot be regarded as real.

In a 1952 conversation with Heisenberg and Pauli in Copenhagen, Bohr quipped: (5) "Those who are not shocked when they first come across quantum theory cannot possibly have understood it." This was most likely a reference to Einstein, who not only contributed to the new theory but also immediately taken aback by its bizarre results.

Richard Feynman Explains The Circle of Life

Nobel prize winning American scientist, Richard Feynman, was fascinated by simple things. From rubber band to fire, Feynman was delighted to explain the physics of day to day items in easy and poetic language. Here, Feynman described the life cycle of a tree as an example to illustrate that life comes full circle.

Where does the structure of the tree come from? To find out, we must start at the beginning. It is understood that seed sown in the ground will develop shoot of the plant, as it reaches out for the sunlight. At the same time, a root spreads deep in the soil searching for water.

Capillary action helps bring water up into the roots when the soil has higher concentration of water than the root cells. It is like putting a wick in oil lamp. But capillary action can only pull water up a small distance, when the plant is small.

In a mature tree, liquid water flows into the woody stem and then into green leaves where photosynthesis will occur. How does it work against the effects of gravity? The answer is cohesive forces that help to move water to the furthest leaf.

In the green leaves, some part of the water is used for photosynthesis. The other part, due to heat from sunlight, escapes into the atmosphere as water in gaseous form. In fact, if you wrap a plastic bag around a leaf, you can actually see vapor condense inside the bag.

Since molecules of water in the root and stem stick tightly to one another because of cohesion, the vapors which escape from the leaves, kind of pull the remaining water, as a single unit, upward behind them. This process is called transpiration.

Going back to, where does the structure of the tree come from? Feynman comments: it is generally thought that plants grow out of the ground. However, apart from water and vital nutrients, the ground does not contribute in the building up of the tree.

Mass of the tree is primarily carbon and where does that come from? The atmosphere, but not in pure form, it comes as carbon dioxide. (In its lifetime, a tree soaks up tons of carbon dioxide from the air, which is why it is advised to plant more trees).

The absorbed carbon dioxide is reduced to pure carbon when acted upon by the sunlight. Trees utilize these carbon molecules to construct their body tissues, for example in the stem. The useless oxygen molecules, on the other hand, are spit back into the air.

Thus, a combination of water, air and light as they come from the ground, atmosphere and sun respectively, mediate the flowering and growth of the tree.

There is a beautiful end to the story. The tree is used as a fuel for combustion. When pieces of wood are rubbed, for example, heat is built up by friction and that leads to reunification of carbon molecules in the tree with oxygen molecules in the air, generating a "tremendous catastrophe" as Feynman puts it, fire.

If you think about it, this light and heat of the fire is the light and heat of the sun, that went in! Feynman says: it is kind of a "stored sun", that is coming out when you burn a log. Isn't it wonderful how nature manages to come back in a full circle?

Five Quotes By Paul Dirac On Religion

Paul Dirac was one of the most influential physicists of the 20th century who made pioneering contributions to quantum mechanics. Dirac predicted the existence of anti-matter in 1928 and won the Nobel Prize for physics in 1933.

According to Dirac, (1) God is a mathematician of a very high order and He used very advanced mathematics in constructing the universe. Many believers take this quote as proof that the greatest scientific thinker of the past century is one of their own.

However, it is forgotten that as a devoted physicist Paul Dirac stayed away from religious activity as far as he could. Dirac was well known for being against organized religion as its influence grew politically.

At the same time, Dirac did not identify clearly as an atheist like other physicists as Bohr, Feynman and Hawking, but he described the possibilities for scientifically answering the question of God. Most biographers today would agree that Dirac was an agnostic.

In 1927 Solvay conference, scientists were discussing religious and/or spiritual implications of quantum mechanics, to which Dirac strongly objected, saying: (2) I cannot understand why we are talking about religion. If we are honest—and scientists have to be—we must admit that religion is a jumble of false assertions, with no basis in reality. The very idea of God is a product of the human imagination.

As a young man, Dirac was upset by dishonesty and self deception in religion. He understood how religion was a political tool as he said: (3) If religion is still being taught, it is by no means because its ideas still convince us, but simply because some of us want to keep the lower classes quiet. Quiet people are much easier to govern than clamorous and dissatisfied ones.

Niels Bohr was impressed by this viewpoint, regarding it as "quite lucid". Werner Heisenberg was tolerant, while Wolfgang Pauli commented: (4) Our friend Dirac has his own religion and its guiding principle is, There is no God and Dirac is his prophet. Everybody present burst into feeble laughter, including Dirac.

In 1963, Dirac wrote for Scientific American that God used advanced mathematics in constructing the universe and as we develop higher and higher mathematics we can hope to understand the universe better.

Dirac mellowed as he grew older but still did not commit himself to any definite view. In 1971, Dirac proposed, (5) if life can start very easily and does not need any divine influence, then I will say that there is no god.

In other words, the discovery of life elsewhere in the universe or creation of life in laboratory would convince Dirac that there is no god. In 1996, a team of scientists discovered evidence for microscopic fossil life in a meteorite from Mars. But more research needs to be done on this.

In the meantime, scientists are looking for earth-like planets or mimicking conditions necessary for the creation of life in laboratory. The possibilities are endless. It is only persistent observation and exploration that will bring us closer to answering the question of God.

7 Life Lessons From 7 Scientists To Inspire You

Michael Faraday: Faraday was a famous English chemist and physicist who could not finish his schooling due to poverty. As a teenager, Faraday self-taught himself while working at a book binding shop. He discovered the laws of electrolysis and electromagnetic induction.

Faraday's pioneering work inspired the likes of Maxwell, Einstein and Tesla. Faraday shows that hard work and self-belief can take you places. That one must be humble and receptive to understand that knowledge is not limited to school books, knowledge is everywhere.

Marie Curie: Two time Nobel Prize winner Madame Curie is best known for the discovery of Radium. Curie lost her mother and her elder sister when she was only 10 years old. Her paternal home was burned to the ground amid war in Poland.

Yet, Curie's tragic childhood did not stop her from becoming a scientist 20 years later. She told her daughters: “Life is not easy for any of us. But what of that? We must have perseverance and above all confidence in ourselves. We must believe that we are gifted for something, and that this thing, at whatever cost, must be attained.”

Albert Einstein: German born physicist Albert Einstein settled in the United States after becoming an American citizen in 1940. As a university professor, Einstein was deeply disturbed by racism in the education system. He decided not to stay quiet about it, expressing publicly:

“The more I feel American, the more it pains me. I can escape the feeling of complicity in it only by speaking out that racism is America’s greatest disease”. Einstein was always known for challenging the norms. As a 15 year old, Einstein clashed with the authorities at his school as he believed that creative thought was lost in a strict rote learning.

Richard Feynman: Feynman was a Rockstar among physicists. He always jumped into an adventure challenging himself and the authority in question. Once Feynman learned Portuguese just to impress his Brazilian colleagues. He played Bongo drums and performed for students with his friend Ralph Leighton.

Feynman drew pictures of contemporary scientists including Dirac, Bethe and painted flowers in spare time. He always had time for hobbies beside solving the mysteries of physics. Feynman openly criticized NASA exposing the safety risks after the challenger disaster. What do you care what other people think? An attitude that Richard Feynman carried till the end of his life and you should too in your adventures in life.

Stephen Hawking: In life, one must be ever ready to face mental as well as physical challenges. Stephen Hawking was a promising student at the prestigious Cambridge university when he suddenly was diagnosed with the motor neuron disease.

The doctors advised Hawking to put his affairs in order as he had only a few more years to live. Despite all the odds, Hawking went on to complete his PhD couple years later, and also revolutionized physics for next half a century. He wrote several best selling books, starred as himself on many popular shows and experienced zero gravity. Stephen Hawking lived life to the fullest.

Isaac Newton: Newton needs no introduction. As the story goes, his genius was unleashed by the falling of an apple. Newton invented the necessary mathematics to explain the dozens of unexplained natural phenomena. He gave the three laws of motion and did pioneering work in optics.

But it is a misconception that Newton did all the work by himself. For one, Newton could not afford the publication of Principia and took the help of noted astronomer Edmund Halley. Secondly, Newton borrowed the idea for calculus from ancient Greek mathematics. Third, Newton built upon the works of Kepler and Galileo and acknowledged this by saying: “If I have seen further, it is by standing on the shoulders of giants.”

Nikola Tesla: Serbian inventor and engineer Nikola Tesla worked for Edison machine works for over a year. Impressed by Tesla’s ingenuity, Thomas Edison offered to pay a hefty bonus for improving the designs of his DC dynamos, but it turned out to be a joke. Later on, the two inventors would feud over whose electrical system would power the world.

A college dropout who set out to revolutionize how humans consumed electric power, Tesla teaches forgiving and focusing on one’s own work. Work talks. Tesla believed: “The present is theirs; the future, for which I really worked, is mine.” Today, the entire world runs on alternating current electrical systems.

Five Quotes By Steven Weinberg on Religion

Steven Weinberg (1933–2021) was an American physicist who won the physics Nobel Prize in 1979 for his contribution to the unification of electromagnetism and weak force. This is similar to Maxwell unifying electricity and magnetism in the 19th century.

Weinberg was not only famous as a scientist but also for his writings and talks outside of science. He did important work in philosophy, politics and history. Weinberg gave the following four tips to students to succeed in the sciences:

1. You don't have to know everything
2. Specialize in a developing field
3. Don't be afraid to be wrong
4. Read more of science history

It is well known that Weinberg was an outspoken atheist and against organized religion. He once said: (1) With or without religion, you would have good people doing good things and evil people doing evil things. But for good people to do evil things, that takes religion.

In another interview, when asked whether he believed in God, Weinberg replied assertively: (2) If by God you mean a personality who is concerned about human beings, who did all this out of love for human beings, who watches us and who intervenes, then I would have to say in the first place how do you know, what makes you think so?

According to Weinberg: (3) One of the great achievements of science has been, if not to make it impossible for intelligent people to be religious, then at least to make it possible for them not to be religious. We should not retreat from this accomplishment.

German theoretical physicist Albert Einstein, an agnostic by belief, had once said: The most incomprehensible thing about the universe is that it is comprehensible. Meaning, one can study the universe and by doing so hope to understand its mysterious workings without having to rely on the supernatural.

Weinberg added to this adage, in one of his books, as he wrote: (4) The more the universe seems comprehensible, the more it also seems pointless. Weinberg meant, whatever the universe is about, it sure as heck isn’t about us, as claimed by religion.

Steven Weinberg had also warned that the world needs to wake up from its long nightmare of religious belief. He said: (5) Anything that we scientists can do to weaken the hold of religion should be done, and may in fact be our greatest contribution to civilization.

Weinberg enjoyed an illustrious career from Cornell to Princeton and from Berkeley and Harvard to MIT where he thought of the Nobel worthy idea to unify fundamental forces of nature. He never retired and continued teaching physics and astronomy until his death