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    Synonyms and Definitions

    Use "electron" in a sentence

    electron example sentences

    electron


    1. involved in chemical reactions, they usually lose one electron of their


    2. The electron shot, wide eyed,


    3. “I cannot transfer information in the system we swim in at better than half the speed of light,” Ava said, “but I understand what you’re saying, it’s not the information that’s throttling the speed, it’s the electron


    4. NASA calls them electron diffusion regions


    5. The flame was being kept alive by this ring which pulsed with an electron like ball which did perfect orbits around it


    6. electron from atom, to create aggressive ions


    7. She’d been staring at the electron microscope screen for what seemed like hours, studying the virus she’d found in the samples taken from the cat and pony


    8. Could “history” become a reality without the historian? If no one was in the forest to hear the falling tree, had it made a sound? If you attempted to determine both the momentum and position of an electron, you necessarily disturbed


    9. theory cannot predict, even in principle, the course that a single electron will take along that


    10. electron itself is smaller than the length of its associated wave

    11. inch in diameter, are composed of a nucleus and outer electron shells


    12. electron orbits behave as if they were solid objects


    13. electron moving at 186,281 miles per hour would be passed by light at a relatively slow 1 mile


    14. electron would be seen to be moving at 186,282 miles per hour! This was the basis of Einstein’s


    15. The scientist thus realizes where the electron


    16. of that intention, the electron could have seemingly struck anywhere or indeed, nowhere


    17. Because the scientist expected to see the track of the movement of an electron through


    18. which lost an electron


    19. The positive charges are stable in the center of an atom, while the negative electron is wild and unstable


    20. With the electron microscope we can see tiny granules on the body of the organism

    21. we try to talk about a pen itself, and more specifically, about a proton or electron as an isolated object


    22. Photons do not obviously move from the outside of an electron to the inside in the same way, so absorption and emission have no classical


    23. Eastern mystics and western poets have been telling us for a long time that whether we speak of something and nothing, Yin and the Yang, the proton and electron, we are describing two parts of an undivided whole


    24. Physicist David Bohm believes that an electron is an ensemble enfolded throughout the whole of space


    25. When an instrument detects the presence of a single electron it is simply because one aspect of the ensemble has unfolded


    26. When an electron moves, it is due to a continuous series of such unfoldments and enfoldments — in other words it pops in and out of the implicate void


    27. The idea that electrons can only occupy certain discrete energy levels was very perplexing to early investigators and to Niels Bohr himself becase the electron was considered to be a particle


    28. It would seem that an electron should be able to orbit around the nucleus at any radial distance


    29. Why the electron occupies only discrete levels is better understood by considering the electron to be, not a particle, but a wave


    30. Using the idea of interference, de Broglie showed that the discrete values of radii of Bohr’s orbits are a natural consequence of standing electron waves

    31. 7 The fact that even a single photon or electron shows an interference pattern in a double-slit experiment adds to the evidence that a single electron is a wave


    32. In order to view the electron as a particle, another wave (travelling in the opposite direction) must be generated by a detector that interferes with this wave, to produce a standing wave


    33. The quantum system in question was a supercurrent (containing billions of electron pairs) flowing around a 140-micron-sized superconducting quantum interference device (SQUID) circuit


    34. Physicist B J Hiley explained that in experiments which have been made to find the radius of the electron they assume that it has an internal structure


    35. According to him you can have structure in an electron without being extended in spacetime


    36. Both contradictory ‘dimensions’ must be accepted at the same time to understand the nature of the electron or photon


    37. great as between the proton and the electron and more in line with the MSSM’s heavy and light charginos


    38. electromagnetic spectrum, which is associated with electron oscil ations in the ordinary plasma


    39. particles are not as great as between the proton and the electron and more in line with the


    40. spectrum, which is associated with electron oscillations in the ordinary plasma

    41. than the standard electron Mirror protons and neutrons would also be more


    42. neutralizing negatively-charged electron forming a cloud around the nucleus


    43. atom’] is the electron The answer is definitely, no What it is


    44. you watch the electrons as they go through the slits as a wave the electron


    45. ‘senses’ that it is being watched, the electron (as a particle) goes through only


    46. later remarked that he frequently had the impression that the electron sea


    47. electron after measurement Carlos Stroud of the University of rochester


    48. and Michael noel of the University of Virginia point out that an electron


    49. electron beam that can ordinarily bore through several millimetres of steel


    50. This is no different from an electron wave, which is superposed between














































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    Synonyms for "electron"

    electron negatron atom neutron proton particle

    "electron" definitions

    an elementary particle with negative charge