"Electrons" Example Sentences
1. Electrons flow through the circuit.
2. The current in the wire was carried by the movement of electrons.
3. Electrons are negatively charged subatomic particles that orbit the nucleus of an atom.
4. When electrons move from one atom to another, an electric current is produced.
5. Electrons were first discovered by British physicist J. J. Thomson in 1897.
6. Electrical conductors allow electrons to flow through easily.
7. An electric motor uses the motion of electrons to produce rotational motion.
8. Electrons occupy different energy levels within an atom.
9. Atoms share or exchange electrons to form chemical bonds.
10. Electricity is the flow of electrons through a conductor.
11. Solar panels use photons to excite electrons in the semiconductor material.
12. The electron microscope uses beams of electrons to view objects.
13. Electrons are emitted from the cathode and attracted to the anode.
14. Atoms are electrically neutral because they contain equal numbers of protons and electrons.
15. Semi-conductors allow electrons to flow more easily under certain conditions.
16. Electrons overcome potential barriers as they jump between energy levels.
17. Electrostatic charges result from the accumulation of electrons.
18. The components in the circuit diagram show the flow of electrons.
19. Electrons are attracted towards the positively-charged terminal in the circuit.
20. Conductivity is a measure of how easily electrons can flow through a material.
21. Transistors control the flow of electrons to amplify or switch electronic signals.
22. An electron cloud represents the probable locations of electrons around an atom.
23. Electrons occupy discrete energy levels within the electron cloud of an atom.
24. Atoms release energy as electrons drop to lower energy levels.
25. Electrons are scattered by the atomic nuclei as they pass through a conductor.
26. Thermionic emission releases electrons from a heated metal surface.
27. Electromagnetic waves contain oscillating electric and magnetic fields that move electrons.
28. There is an attraction between the negative electrons and positive atomic nuclei.
29. Electrons occupy different orbitals determined by quantum numbers.
30. Electron affinity is the energy change when an electron is added to an atom.
31. LEDs produce light as electrons recombine with electron holes.
32. Electrons leave a negatively-charged anode and enter a positively-charged cathode.
33. Electrons were first observed using a cathode ray tube experiment.
34. The number and arrangement of electrons determines an element's chemical properties.
35. Electromagnetic induction produces a voltage by changing the magnetic flux linked with electrons.
36. The electrical double layer involves the arrangement of ions and electrons at an interface.
37. Electron diffraction reveals information about the arrangement of atoms in solids.
38. Electron tunneling allows electrons to pass through potential barriers.
39. Electron configurations determine the chemical properties of elements.
40. Electron spin determines whether electrons pair up or remain unpaired.
41. The exchange interaction arises from the motions of electrons between atoms.
42. Free electrons allow electric current to flow in metals and semiconductors.
43. Electron energy levels contribute to an element's chemical reactivity.
44. Electron hole pairing occurs when electrons recombine with holes in semiconductors.
45. Electron multipliers amplify signals produced by ionizing radiation.
46. Electrons occupy discrete energy levels according to quantum theory.
47. Electron clouds give rise to chemical bonding and molecular structure.
48. Electron capture occurs when a proton captures an inner atomic electron.
49. Electron shells represent the probability of finding electrons at certain distances from the nucleus.
50. Electron velocity depends on the applied electric potential and material resistivity.
51. Electrons occupy orbitals with permitted and forbidden energy levels.
52. Electron pumps inject electrons into semiconductors to produce a current.
53. Electron scattering determines the resistivity of conductors.
54. Electron densities reveal molecular structures using diffraction techniques.
55. Electron drift velocity is the average velocity of electrons in a conductor.
56. Electron multiplication amplifies signals in photomultiplier tubes.
57. Electron spectroscopy determines the energy distribution of electrons in matter.
58. Electrons occupy molecular orbitals formed from atomic orbitals.
59. Paramagnetism arises from the response of unpaired electrons to an applied magnetic field.
60. Electron delocalization occurs when electrons are spread out over multiple atoms.
Common Phases
1.
Electrons flow through electrical circuits.
2. The electron stream bombarded the target material.
3.
Electrons move very quickly in metals and semiconductors.
4. Valence
electrons determine how atoms bond with each other.
5. A stream of
electrons hit the fluorescent screen.
6. The
electrons were accelerated to produce X-rays.
7. The cloud chamber showed the track of the
electrons.
8. Electric current is the flow of
electrons in a conductor.
9.
Electrons are negatively charged subatomic particles.
10.
Electrons occupy energy levels in an atom.
11. The deflection of the electron beam produced the image.
12. The gap between the electrodes allowed
electrons to pass.
13. An excess of
electrons creates a negative charge.
14.
Electrons can be emitted by materials when exposed to light.
15.
Electrons were fired at the target from the electron gun.
16. Conductors allow
electrons to flow through easily.
17. Insulators resist the flow of
electrons.
18.
Electrons emit from the cathode and go to the anode.
19. The activity of
electrons controls electrical conductivity.
20.
Electrons are attracted to positively charged atoms.
21.
Electrons carry electric charge in an electric circuit.
22.
Electrons jump between orbits in an atom.
23.
Electrons jumped the gap when the voltage was high enough.
24. The electron micrograph showed fine structural details.
25.
Electrons were emitted from the glowing filament.
26. The incoming
electrons collided with the gas atoms.
27. The electromagnet deflected the stream of
electrons.
28.
Electrons gather near the negatively charged terminal.
29. The
electrons were attracted to the positively charged plate.
30. The material can lose
electrons to become positively charged.
31. The lack of
electrons creates positive charge.
32.
Electrons move in predictable paths in certain materials.
33. Free
electrons wander through metals and semiconductors.
34.
Electrons are attracted to areas of high positive potential.
35. The more valence
electrons, the more stable the atom.
36.
Electrons jump to the lowest energy state.
37.
Electrons carry information encoded in their flow.
38. Some
electrons escaped the atom due to high energy photons.
39.
Electrons have a negative charge due to the excess of
electrons.
40. Conductors have many "free"
electrons that can move around.
41.
Electrons move randomly in conductive materials.
42. The electron cloud around an atom determines its size.
43. The higher the voltage, the faster the
electrons move.
44.
Electrons are attracted by positively charged nuclei.
45.
Electrons occupy energy shells around the nucleus.
46. Light causes
electrons to jump to higher energy levels.
47.
Electrons bring stability to atoms by filling shells.
48. A change in electron configuration causes materials to react.
49. The solution gained
electrons and became negatively charged.
50.
Electrons are pushed through the semiconductor material.
51.
Electrons occupy orbits around the nucleus.
52.
Electrons are negatively charged due to lacking protons.
53. When atoms gain
electrons, they become negatively charged ions.
54. The fumes lost
electrons and became positively charged particles.
55. Free
electrons allow metals to conduct electricity easily.
56.
Electrons absorb quanta of energy from photons.
57. Conductors allow
electrons to "drift" freely through the material.
58.
Electrons pass through semiconductors more slowly.
59. Atoms lose
electrons when they are exposed to sufficient energy.
60. Electromagnetic waves cause
electrons to vibrate or jump orbits.