Discover the most popular and inspiring quotes and sayings on the topic of Electrons. Share them with your friends on social media platforms like Facebook, Twitter, or your personal blogs, and let the world be inspired by their powerful messages. Here are the Top 100 Electrons Quotes And Sayings by 82 Authors including Willard Libby,George Carlin,Penny Reid,Bruce H. Lipton,Allen Ginsberg for you to enjoy and share.
The future of the world, dependent as it is upon atomic energy, requires more understanding and knowledge about the atom.
Electricity is really just organized lightning
Duct tape is man's answer to electrons and protons. It's how we keep matter together.
Atoms are made out of invisible energy, not tangible matter! So
more diamonds and pearls of electricity
Vibrations are the key to everything. Atoms used to be, but atoms have quite gone out.
Without electrons, there is no Google. And without clean electrons, there will be no Google customers, since we'll all be too busy fleeing from rising seas, droughts, and disease.
Whether we electrons, light quanta, benzol molecules, or stones, we shall always come up against these two characteristics, the corpuscular and the undular.
No scientific subject has ever aroused quite the same mixture of hopes and fears [as atomic energy].
Day after day I asked myself what is electricity and found no answer. Eighty years have gone by since and I still ask the same question, unable to answer it. NIKOLA TESLA1
The electron is a theory. But the theory is so good we can almost consider them real.
In the present state of our knowledge, it would be useless to attempt to speculate on the remote cause of the electrical energy ... its relation to chemical affinity is, however, sufficiently evident. May it not be identical with it, and an essential property of matter?
Atoms are round balls of wood invented by Dr. Dalton.
(Answer given by a pupil to a question on atomic theory, as reported by Sir Henry Enfield Roscoe.)
If I say [electrons] behave like particles I give the wrong impression; also if I say they behave like waves. They behave in their own inimitable way, which technically could be called a quantum mechanical way. They behave in a way that is like nothing that you have seen before.
If anyone should doubt whether the electrical matter passes through the substance of bodies, or only over along their surfaces, a shock from an electrified large glass jar, taken through his own body, will probably convince him.
All that glitters may not be gold, but at least it contains free electrons.
Now we have lit a candle to the power Of atoms; now we know we're heirs of light Itself ...
Its Batteries! I just know it!
The idea of atomic energy is illusionary but it has taken so powerful a hold on the minds, that although I have preached against it for twenty-five years, there are still some who believe it to be realizable.
Atoms have a nucleus, made of protons and neutrons bound together. Around this nucleus shells of electrons spin, and each shell is either full or trying to get full, to balance with the number of protons-to balance the number of positive and negative charges. An atom is like a human heart, you see.
We have here a proof that there is in the atom a fundamental quantity, which increases by regular steps as one passes from one element to the next. This quantity can only be the charge on the central positive nucleus, of the existence of which we already have definite proof.
Sir Arthur Eddington summed up the situation brilliantly in his book The Nature of the Physical World, published in 1929. "No familiar conceptions can be woven around the electron," he said, and our best description of the atom boils down to "something unknown is doing we don't know what".
All things are made of atoms - little particles that move around in perpetual motion, attracting each other when they are a little distance apart, but repelling upon being squeezed into one another. In
After some cogitation, it is difficult not to agree with Herman Bondi (1919 - 2005), who in his book 'Relativity and Common Sense' says:
... The surprising thing, surely, is that molecules in a gas behave so much as billiard balls, not that electrons behave so little like billiard balls.
The atoms all seem to be made from the same general constitution. They have a nucleus, and around the nucleus there are electrons.
In going on with these Experiments, how many pretty systems do we build, which we soon find ourselves oblig'd to destroy! If there is no other Use discover'd of Electricity, this, however, is something considerable, that it may help to make a vain Man humble.
The network of trenches and artillery below shows itself very clearly for a moment, and Werner feels he is gazing down into the circuitry of an enormous radio, each soldier down there an electron flowing single file down his own electrical path, with no more say in the matter than an electron has.
O amazement of things-even the least particle!
In England and the United States, where physicists have at their disposal equipment of very high voltages, several new elements were prepared using protons and deuterons as projectiles.
[About describing atomic models in the language of classical physics:]
We must be clear that 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.
We believe that electricity exists, because the electric company keeps sending us bills for it, but we cannot figure out how it travels inside wires.
Atoms are very special: they like certain particular partners, certain particular directions, and so on. It is the job of physics to analyze why each one wants what it wants.
This is the age of electrical energy. The age of atomic energy hasn't really dawned yet, not in the way that atomic energy has evolved in other worlds.
Atoms consist of a positive nucleus and negative electrons flying around outside it. Electrons closest to the nucleus feel a strong negative-on-positive tug, and the bigger atoms get, the bigger the tug. In really big atoms, electrons whip around at speeds close to the speed of light.
My atoms love you atoms, it's chemistry.
In the forty-five years centered on 1910, the nature of the atom was first understood - partly by shooting pieces of atoms at atoms and watching how they bounce off.
Electrical science has disclosed to us the more intimate relation existing between widely different forces and phenomena and has thus led us to a more complete comprehension of Nature and its many manifestations to our senses.
The laws of light and of heat translate each other;-so do the laws of sound and colour; and so galvanism, electricity and magnetism are varied forms of this selfsame energy.
If we were to name the most powerful assumption of all, which leads one on and on in an attempt to understand life, it is that all things are made of atoms, and that everything that living things do can be understood in terms of the jigglings and wigglings of atoms.
In the spring of 1929, I returned to the United States. I was homesick for this country. I had learned in my student days a great deal about the new physics. I wanted to pursue this myself, to explain it, and to foster its cultivation.
Deep in the world of atomic nuclei, life is not always tranquil.
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.
In size the electron bears the same relation to an atom that a baseball bears to the earth. Or, as Sir Oliver Lodge puts it, if a hydrogen atom were magnified to the size of a church, an electron would be a speck of dust in that church.
Perhaps I have found out a little about the structure of atoms.
Electricity is but yet a new agent for the arts and manufactures, and, doubtless, generations unborn will regard with interest this century, in which it has been first applied to the wants of mankind.
The electromagnetic attraction between negatively charged electrons and positively charged protons in the nucleus causes the electrons to orbit the nucleus of the atom, just as gravitational attraction causes the earth to orbit the sun.
I do not keep up with the details of particle physics.
In basic research, the use of the electron microscope has revealed to us the complex universe of the cell, the basic unit of life.
Where the electron behaves and misbehaves as it will, where the forces tie themselves up into knots of atoms and come united ...
I have been connected with the Niels Bohr Institute since the completion of my university studies, first as a research fellow and, from 1956, as a professor of physics at the University of Copenhagen. After the death of my father in 1962, I followed him as director of the Institute until 1970.
There is one simplification at least. Electrons behave ... in exactly the same way as photons; they are both screwy, but in exactly in the same way ...
Like a black hole, NSA pulls in every signal that comes near, but no electron is ever allowed to escape.
I hitched my wagon to an electron rather than the proverbial star.
Each atom in Nature is the body of a virginal sparkle that incessantly evolves through time and space.
Until four years ago, in fact, I was absolutely in love with the atom.
Electricity and magnetism are those forces of nature by which people who know nothing about electricity and magnetism can explain everything.
Why I came here, I know not; where I shall go it is useless to inquire - in the midst of myriads of the living and the dead worlds, stars, systems, infinity, why should I be anxious about an atom?
On my return to Pittsburgh, I resolved to go back to the fundamental problems of electronic structure that I had contemplated abstractly many years earlier.
They run off eckeltricity, do they?" he said knowledgeably. "Ah yes, I can see the plugs. I collect plugs," he added to Uncle Vernon. "And batteries. Got a large collection of batteries.
Life is a partial, continuous, progressive, multiform and conditionally interactive self-realization of the potentialities of atomic electron states.
Measurements of the specific ionization of both the positive and negative particles, by counting the number of droplets per unit length along the tracks, showed the great majority of both the positive and negative particles to possess unit electric charge.
A physicist is just an atom's way of looking at itself.
I can't imagine the scientists wanting me to walk into the lab and start fiddling around with some big bowl of electrons they had out.
Digital wisdom is made of recycled electrons that are meaningful until you pull the plug.
Atoms for peace. Man is still the greatest miracle and the greatest problem on earth. [Message tapped out by Sarnoff using a telegraph key in a tabletop circuit demonstrating an RCA atomic battery as a power source.]
When our fingers touch a crackle of electricity passes between us.
My God, what a sensation to be an atom in the scheme of such grandiosity. The allurement, the jazz, and the physics of it all ...
An atom must be at least as complex as a grand piano.
Quantum mechanics provides us with an approximate, plausible, conjectural explanation of what actually is, or was, or may be taking place inside a cyclotron during a dark night in February.
Scientists have continued to tinker with different elements and have learned new ways to store and deliver energy.
If we are ever to cross the 100-nano barrier in electronics, we need to develop nano structures that let electrons move through, as they do through wires and semiconductors. And these structures must survive in the real world of air, water, boiling temperatures.
Here's a mnemonic device that might be useful. LEO the lion says GER LEO: you Lose Electrons in Oxidation GER: you Gain Electrons in Reduction
What are these fundamental principles, if they are not atoms?"
"Stories. And they give me hope.
Shine light on electrons you'll cause them to swerve./ The act of observing disturbs the observed.
You need a negative charge and a positive one to get something moving. We've got the negative; we're going to find the positive if it kills us.
Mysteries like these repeating cycles make it very interesting to be a theoretical physicist: Nature gives us such wonderful puzzles! Why does She repeat the electron at 206 times and 3,640 times its mass?
In other words, the process of observation determines the final state of the electron.
Electricity comes from other planets.
With the exception of gravitation and radioactivity, all of the phenomena known to physicists and chemists in 1911 have their ultimate explanation in the laws of quantum electrodynamics.
The particular features of the photographic method of detecting atomic particles enabled us to establish the existence of transient forms of matter which had escaped recognition by other methods.
The atom has taught me that the little things do count - most.
According to well-known electrodynamic laws, an electron moving in a magnetic field is acted upon by a force which runs perpendicular to the direction of motion of the electron and to the direction of the magnetic field, and whose magnitude is easily determined.
The world, the human world, is bound together not by protons and electrons, but by stories. Nothing has meaning in itself: all the objects in the world would be shards of bare mute blankness, spinning wildly out of orbit, if we didn't bind them together with stories.
Shortly before, during, and after the strong and electroweak forces parted company, the universe was a seething soup of quarks, leptons, and their antimatter siblings, along with bosons, the particles that enable their interactions.
I am ceaselessly occupied with the question of the constitution of radiation ... This quantum question is so incredibly important and difficult that everyone should busy himself on it.
We seem gradually to be groping toward an understanding of the world of subatomic particles, but we really do not know how far we have yet to go in this task.
This is the time of myths, Orphan. They are the cables that run under the floors and power the world, the conduits of unseen currents, the steam that powers the great engines of the earth.
Imagine one atom of that speck of dust, with electrons traveling around its nucleus at 180,000 miles per second. It is very exciting. To return to a speck of dust with be quite an exciting adventure!
It's either some kind of electricity or some kind of energy. I don't know what it is, but whatever it is, I've got it.
There's atoms, which is things that is too small to see, that's what we're all made of. And there's things that are smaller than atoms, and that's Particle Physics.
Bod nodded and decided that Scarlett's father was probably interested in imaginary things.
The unleashed power of the atom has changed everything save our modes of thinking and we thus drift toward unparalleled catastrophe.
In spite of the enormous complexity of macroscopic bodies when viewed from an atomistic viewpoint, one knows from everyday experience as well as from precision experiments that macroscopic bodies obey quite definite laws.
The group had an atomic structure: a nucleus of nuts surrounded by darting, nervous nurse-electrons charged with our protection.
I do not know what joins the parts of an atom, but it seems what
Neutrinos ... win the minimalist contest: zero charge, zero radius, and very possibly zero mass.
H2O it's a complicated, three-dimensional, charged object. And one can pack these things in many different ways, a little like playing the child's game of jacks, where those complicated little objects can be thrown together in all different ways.
Nobody has ever seen an electron. Nor a thought. You can't see a thought, you can't measure, weigh, nor taste it- but thoughts are the most real things in the Galaxy.
The atom was split by persistence.
So two atoms of Helium were acting all funny ... Hehe
In my view the structure of the whole atom was that of an individual, with all its parts interconnected, and the emission of a spectral line appeared to me to be the result of the coherence and co-operation of several electric quanta.