No Contradiction Between Physics And Religion: Max Planck

Max Planck was a German theoretical physicist who is regarded as the father of quantum mechanics. Planck won the Nobel Prize in physics in 1918, for the discovery of energy quanta.

While solving for energy quantum, Max Planck stumbled upon a very small number which is the foundation of modern physics. Planck is well known for this constant which has been named in his honor, h = 6.62607015 × 10-34 m2 kg / s.

Planck came from a traditional family, a generation of theology professors in Gottingen. Plank's father broke that tradition by teaching law. Later on Planck too, as he became a professor of physics. However, while Planck was driven mainly by science, he was also religious by heart.

According to Planck, there was no contradiction between science and religion. Religion and natural science (read: physics) do not exclude each other, as many contemporaries of ours would believe or fear, Planck said. They mutually supplement and condition each other.

The following quotes are by Planck on science and religion:

1. Science cannot solve the ultimate mystery of nature. And that is because, in the last analysis, we ourselves are part of nature and therefore part of the mystery that we are trying to solve.

2. Experiments are the only means of knowledge at our disposal. The rest is poetry, imagination.

3. My research on the atom has shown me that there is no such thing as matter in itself. What we perceive as matter is merely the manifestation of a force that causes the subatomic particles to oscillate and holds them together in the tiniest solar system of the universe

4. Natural science wants man to learn, religion wants him to act.

5. Anybody who has been seriously engaged in scientific work of any kind realizes that over the entrance to the gates of the temple of science are written the words: Ye must have faith. It is a quality which the scientist cannot dispense with.

5 Predictions of Nikola Tesla That Came True (And 5 That Didn't)

Nikola Tesla was a genius Serbian American inventor who laid the foundations of alternate current power system. Tesla was an advocate of modern technology and made many convincing predictions about the future. Some of Tesla's predictions were proven correct in the 21st century and some have gone wrong, as you shall see in this post.

1. (Right) Alternating current

Nikola Tesla pioneered the generation, transmission and use of alternating current electricity. Tesla believed that one day in the future the entire world would use his power system over direct current.

Thomas Edison famously tried to show with experiment that alternating current was deadly. However, Tesla overcame that fear mongering by showing that AC was safe, inexpensive and usable over large distances.

2. (Wrong) Interplanetary energy exchange

One can see that Tesla and his ideas were on another level when he said that he would be able to complete interplanetary communication. In 1931, Tesla proposed a way in the future that would allow planets to transmit energy, from one planet to another, in large amounts of horsepower - regardless of distance.

3. (Right) Smartphone

In 1908, Tesla said - An inexpensive instrument, not bigger than a watch, will enable one to call up, from one's desk, and talk to any telephone subscriber on the globe. Any picture, character, drawing, or print can be transferred from one to another place.

4. (Wrong) Unlimited free energy

Tesla envisioned a future in which humans are able to harness the energy of ionosphere and distribute it wirelessly to anyone anywhere on the planet. This concept, while inspiring, has not been realized because of practical reasons.

5. (Right) Thought images, MRI

Tesla: I expect to photograph thoughts. In 1893, while engaged in certain investigations, I became convinced that a definite image formed in thought must produce a corresponding image on the retina, which might be read by a suitable apparatus.

The closest machine able to do as Tesla suggested is MRI scan. An fMRI scan can tell you something about what a person is thinking. Tesla predicted - "Our minds would then, indeed, be like open books."

6. (Wrong) Wireless electricity

One notable incorrect prediction of Nikola Tesla is transmission of wireless electricity through the air. There would be no need for wires in the future for long distance transfer using his Wardenclyffe tower. This idea of Tesla was impractical on many levels and was not realized on large scale.

7. (Right) Wi-fi

While wireless electricity did not succeed, wireless transfer of files - documents, photos, music, video worked. His prediction of the internet came true in the 1980s and wireless file transfer in the 1990s.

8. (Wrong) Anti gravity tech

Tesla predicted an anti-gravity technology which would allow levitation in day to day life. Despite ongoing research in this field, anti gravity remains impractical and still quite far from reality.

9. (Right) Robotics and automation

Tesla predicted that robots will replace humans in many fields. He predicted driverless cars. He predicted robots would do menial labor like lifting and loading. Today, not only this, but automation via artificial intelligence is putting human creativity at risk, as they create art and music.

10. (Wrong) Weather control

While modern science has explored temporary weather modification techniques like cloud seeding, a complete control of weather and climate as Tesla had envisioned has not come to fruition.

Paul Dirac versus Richard Feynman

Feynman and Dirac, two great physicists who made invaluable contribution to quantum mechanics and Nobel prize winners, were poles apart.

While Richard Feynman idolized Paul Dirac, they disagreed on many things. One remembers Dirac as an extremely shy person, who hesitated to speak. Feynman, on the contrary, was a chatty man whose anecdotes spread contagious laughter.

Dirac won the Nobel prize for correctly predicting the existence of anti-matter. Three decades later, Feynman won the coveted prize for his work with elementary particles.

Both physicists had a very distinct view of science. Dirac was inclined towards mathematics and considered beauty in one's equations to be important. While Feynman preferred the equation to stand the test of experiment.

Feynman said - Physics is not mathematics. Mathematics is not physics. One helps the other.

Dirac was of the view - It is more important to have beauty in one's equations than to have them fit experiment.

You can say that in this regard Feynman and Dirac were rivals as they say "Raibaru" in Japanese. They did not seem to agree on this one thing.

Yet, as a young man Feynman idolized Dirac. He said - 

Dirac made a breakthrough, a new method of doing physics. He had the courage to simply guess at the form of an equation, and to try to interpret it afterwards.

This equation is now called Dirac equation. It is a beautiful, small equation that predicts counterpart of matter, anti-matter. In 1932, Paul Dirac was recognized by Nobel prize in physics for his work.

Later on, Feynman's views changed.

Being a mathematical physicist, Dirac was of the view that if an equation has beauty, then one must be working correctly, on the right path. Feynman disagreed that beauty is paramount, but he still remained a Dirac fanboy.

Feynman's evolved thought was

No matter how beautiful an equation is, no matter who made the equation or how genius he was, if it disagrees with experiment, it is wrong!

In 1962, the two great minds Feynman and Dirac met at a science conference.

Feynman a chatty fellow talked at length while a meek old man Dirac listened quietly. In the end, Dirac blurted out a question - I have an equation. Do you have one too?

Earlier in 1948, Feynman had invented a diagram to pictorially represent the interaction of subatomic particles. For this simplification work, Feynman won the Nobel prize in 1965. It is then interesting to note that both scientists won the Nobel prize in physics for proposing a simple solution.

One key takeaway from this story is that it takes courage to challenge your idol. Feynman admired Dirac all his life, but it was not wrong for him to disagree with his hero once in a while. Isn't that how science progresses? When great minds collide?

10 Motivational Quotes By Albert Einstein

Everyone would agree that Albert Einstein was the greatest physicist of all time. Einstein won the Nobel Prize for explaining the photoelectric effect thereby paving a way for quantum mechanics to bloom, but he is most well know for equation E = m c^2.

More than that, Einstein developed a new theory of universal gravitation, an improvement over Newton's version, in which Einstein imagined a curving space and time resulting in a force we call gravity. Einstein spent his last years to find the ultimate theory of the universe.

Today, Albert Einstein is remembered not only as a great scientist, but also as a wise man, who inspired students with his witty remarks. Einstein was featured in the movie Oppenheimer, giving advice to physicist Robert Oppenheimer.

Following are ten quotes by Einstein to help students succeed in academics and in life:

1. Great spirits have always encountered violent opposition from mediocre minds.

2. Never memorize something that you can look up.

3. Anyone who has never made a mistake has never tried anything new.

4. Logic will get you from A to Z; imagination will get you everywhere.

5. The world is a dangerous place to live, not because of the people who are evil, but because of the people who don't do anything about it.

6. I have no special talents. I am only passionately curious. The important thing is not to stop questioning. Curiosity has its own reason for existence.

7. The measure of intelligence is the ability to adapt to change.

8. What is right is not always popular and what is popular is not always right.

9. Life is like riding a bicycle. To keep your balance, you must keep moving.

10. I speak to everyone in the same way, whether he is the garbage man or the president of the university.

Feynman's Letter To Deceased Wife Breaks Stereotype

It is said that men cannot express themselves well enough. Building upon this notion, often times TV shows tend to portray that male scientists [or as they say geeks] cannot convey feelings of love and usually get awkward in social situations.

However, there was one outspoken physicist by the name Richard Feynman who not only broke this stereotype but went beyond. Feynman was a great teacher, artist and lover.

Feynman's love for his wife knew no bounds. He wrote about it in a book titled What do you care what other people think? [a phrase his wife Arline taught him]. The book was later on adapted into a movie starring Matthew Broderick as Richard Feynman and Patricia Arquette as Arline Greenbaum in 1996.

Arline was struck by tuberculosis and was bed ridden for the latter part of her short lived life. Feynman used to commute from work to the hospital every day, a place which became their home in the last few years. He brought her presents and flowers and promised to stay by her side until her last breath. Feynman stood by his word.

When Arline passed away, every other thing reminded Feynman of the time he had spent with her. A cute dress by the window of a shop brought tears to his eyes, as Feynman imagined how his departed wife Arline would look in it.

Following is a letter that Feynman wrote 16 months after Arline had passed away. He just could not get over her for a really long time as this letter shows...

October 17, 1946

D’Arline,

I adore you, sweetheart.

I know how much you like to hear that — but I don’t only write it because you like it — I write it because it makes me warm all over inside to write it to you.

It is such a terribly long time since I last wrote to you — almost two years but I know you’ll excuse me because you understand how I am, stubborn and realistic; and I thought there was no sense to writing.

But now I know my darling wife that it is right to do what I have delayed in doing, and that I have done so much in the past. I want to tell you I love you. I want to love you. I always will love you.

I find it hard to understand in my mind what it means to love you after you are dead — but I still want to comfort and take care of you — and I want you to love me and care for me. I want to have problems to discuss with you — I want to do little projects with you. I never thought until just now that we can do that. What should we do. We started to learn to make clothes together — or learn Chinese — or getting a movie projector. Can’t I do something now? No. I am alone without you and you were the “idea-woman” and general instigator of all our wild adventures.

 

When you were sick you worried because you could not give me something that you wanted to and thought I needed. You needn’t have worried. Just as I told you then there was no real need because I loved you in so many ways so much. And now it is clearly even more true — you can give me nothing now yet I love you so that you stand in my way of loving anyone else — but I want you to stand there. You, dead, are so much better than anyone else alive.

I know you will assure me that I am foolish and that you want me to have full happiness and don’t want to be in my way. I’ll bet you are surprised that I don’t even have a girlfriend (except you, sweetheart) after two years. But you can’t help it, darling, nor can I — I don’t understand it, for I have met many girls and very nice ones and I don’t want to remain alone — but in two or three meetings they all seem ashes. You only are left to me. You are real.

My darling wife, I do adore you.

I love my wife. My wife is dead.

Rich.

PS Please excuse my not mailing this — but I don’t know your new address.

 

5 Quotes By James Maxwell To Inspire Students

James Clerk Maxwell [1831-1879] was a Scottish physicist and mathematician who is best known for equations which unified electricity, magnetism and light into one coherent subject of electromagnetism. As a result of his work, Maxwell is considered one of the greatest physicists of all time.

Maxwell lived a short but a truly fulfilling academic life, regarded on par with Newton and Einstein. He is also known as the founder of the modern field of electrical engineering. Maxwell died of stomach cancer but inspired many, including Tesla, with his words.

Following are five motivational quotes by James Maxwell:

1. The world may be utterly crazy, and life may be labour in vain; But I'd rather be silly than lazy, and would not quit life for its pain.

2. It is of great advantage to the student of any subject to read the original memoirs on that subject, when we take some interest in the great discoverers and their lives that science becomes endurable, and only when we begin to trace the development of ideas.

3. In every branch of knowledge the progress is proportional to the amount of facts on which to build, and therefore to the facility of obtaining data.

4. The equations at which we arrive must be such that a person of any nation, by substituting the numerical values of the quantities as measured by his own national units, would obtain a true result.

5. Every man has been given a progressively increasing power of communication with other creatures.  Happiness is indissolubly connected with the full exercise of these powers in their intended direction.

James Clerk Maxwell died early, but he was able to capture the attention of scientific community with his work for a long time. He was inspired by Faraday and went on to inspire the likes of Einstein and Tesla.

Physicist Who Coined Black hole & Wormhole

John Wheeler is best known as a physicist who popularized the term black hole. He was called the hero of black hole story by Stephen Hawking. Wheeler also coined the word wormhole for a hypothetical pathway connecting two remote points in space-time.

Wheeler [1911 – 2008] earned his doctorate degree when he was only 21 years old. He worked with such renowned scientists as Niels Bohr and Edward Teller. For most his life, Wheeler was a professor, his most notable student being Nobel laureate Richard Feynman.

Following are 5 brilliant quotes by John Wheeler:

1. Space tells matter how to move. Matter tells space how to curve. This is how Wheeler summarized Einstein's general relativity in one line.

2. The best way to learn something is to have to teach it. said in 1996

3. We live on an island surrounded by a sea of ignorance. As our island of knowledge grows, so does the shore of our ignorance. to Scientific American, 1992

4. In any field find the strangest thing and then explore it. quoted by James Gleick

5. The universe gives birth to consciousness, and consciousness gives meaning to the universe.

John Wheeler and Richard Feynman

Wheeler joined Princeton University as a professor of physics in 1938, remaining until 1976. Wheeler supervised 46 PhD students at Princeton, more than any other professor. His most notable student was Richard Feynman.

Over the course of time, Wheeler and Feynman developed a friendship and mutual admiration. Feynman referred to Wheeler as his "spiritual father," and they maintained a lifelong connection, even after Feynman moved to Caltech.

Death and legacy

On April 13, 2008, Wheeler died of pneumonia at the age of 96. He is remembered as one of the greatest American physicists of the 20th century. After his death, the University of Texas named the John Wheeler Lecture Hall in his honor.

Which Physicist Had The Highest IQ?

While the score of IQ does not determine or justify the genius of a physicist, it is still a good measure to keep. The IQ of a person is always an estimate of their intelligence, but might not be accurate.

Having said that, following are the IQ scores of renowned physicists. Who had the highest IQ and who had (surprisingly) the lowest? Let's see.

1. Albert Einstein

German physicist Albert Einstein made substantial contributions to physics and won the Nobel Prize for explaining the photoelectric effect. Einstein's IQ is said to be somewhere around 160 to 190.

2. Richard Feynman

Feynman was a charismatic physicist who is well known for playing the bongo. His work includes quantum electrodynamics, Feynman diagram and contribution to the Manhattan project. Feynman's IQ is said to be 125 and he loved joking about it.

3. Stephen Hawking

English astrophysicist Stephen Hawking is popularly known for his work in the field of big bang cosmology and black holes. Hawking's IQ is around 160.

4. Nikola Tesla

Tesla was a genius inventor who laid the foundations of alternating current technology which is used to power any modern household. Tesla's intelligence is often debated, and some claims about his IQ are exaggerated. However, the estimate is around 160 to 250.

5. Carl Sagan

American astronomer Carl Sagan is known for his popular show Cosmos: a personal voyage. He was among the first to accurately describe the atmosphere of Venus. His interest was to explore the universe for signs of extraterrestrial life. Sagan's IQ was around 150.

6. Werner Heisenberg

German physicist Heisenberg is considered the father of quantum mechanics. He is most famous for proposing the uncertainty principle, which is the cornerstone of quantum physics. Heisenberg's IQ was somewhere around 155.

7. Paul Dirac

Dirac is also considered one of the fathers of quantum mechanics. His most famous contribution is the accurate prediction of the existence of anti-matter for which he earned a Nobel prize. Dirac's IQ was higher than Einstein's, somewhere around 180-200.

8. Niels Bohr

Bohr was among the first to welcome the quantum revolution and supported the theory with all his influence. He is known for proposing the hydrogen model of atom and laying the foundations of quantum physics. Bohr's IQ was from 150 to 160.

9. Marie Curie

Madame Curie was among the brightest scientists who is the only person to win two Nobel prizes in two different sciences. Her IQ is estimated to be around 180 to 200.

10. John Wheeler

American theoretical physicist John Wheeler worked with Niels Bohr to explain nuclear fission. But he is widely known as the person who coined the term black hole. Wheeler's IQ was around 150 to 160.

10 Examples of Physics In Daily Life

Physics is not just about solving the problems and finding the right answer. From atoms to galaxies, everything is governed by physical laws. Not only is physics responsible for modern technology but also an active part of day to day life without us even realizing.

Following are ten such examples of physics in daily life:

1. In winter season, the act of rubbing your hands together to create warmth is a norm. Friction generates heat as well as responsible for static electricity. Have you heard sparkling noise while removing woollen clothes?

2. The refrigerator is made up of sheet metal so we can have thermal insulation between the strong metal and the food inside. That is why we use the surface of fridge to hold up a magnetic note or picture.

3. As we throw a basketball into the hoop or hit the soccer ball with foot, the curve traced by ball is called a parabola, and there is a certain angle at which you need to throw the projectile so it covers maximum distance. Athletes use this physics all the time.

4. Feeling the pressure change when riding in an elevator. Not only that, when you move from plains to mountains, there is also a pressure change and breathing becomes more difficult. This also happens with divers.

5. Using glasses or contact lenses to correct vision. Approximately 64% of adults use some form of vision correction, including eyeglasses, contact lenses, and/or vision correction surgery. Also, rear view mirror in vehicles is a convex mirror, bulged outward, to give a wider field of view.

6. Semiconductor physics used in electronic devices like smartphones, laptops, and TVs. When we buy a new smartphone, we tend to compare which chip the device is powered by.

7. When a baseball pitcher throws a curveball, the spin on the ball creates a pressure difference on its surface, causing it to curve due to Bernoulli's principle.

8. Ferrofluids are used in high end speakers to improve sound quality. Ferrofluids are liquids that become strongly magnetized in the presence of a magnetic field, thus dampening vibrations, and cooling the speaker coils.

8. Flicking a light switch involves a combination of mechanical and electrical processes. When the switch is flipped, it completes an electrical circuit, allowing current to flow and illuminate the light bulb.

9. The popping of popcorn kernels occurs due to the buildup of steam inside the kernel as it heats up. When the pressure inside the kernel exceeds its structural integrity, it explodes, turning inside out to form the fluffy snack we enjoy.

10. Elasticity is everywhere around us - from springs to rubber bands to bouncing a ball. Even trains are powered by thick metal springs. Springs are also used as a power source in mechanical watches.