100 Examples of sentences containing the common noun "electrons"

Definition

Electrons are subatomic particles with a negative electric charge, typically found orbiting the nucleus of an atom. They play a crucial role in chemical bonding and electricity, being responsible for the flow of electric current in conductors.

Synonyms

• Charged particles
• Negative particles
• Subatomic particles

Antonyms

• Positrons (positively charged counterparts)
• Protons (positively charged components of atomic nuclei)

Examples

1. The movement of electrons creates an electric current.
2. When heat is applied, electrons gain energy and move faster.
3. In a vacuum, electrons can travel freely without obstruction.
4. The behavior of electrons is described by quantum mechanics.
5. Electrons are essential for the formation of chemical bonds.
6. When electrons are removed from an atom, it becomes positively charged.
7. The flow of electrons in a circuit is what powers electrical devices.
8. Electrons can exist in different energy levels around the nucleus.
9. Quantum dots can trap electrons in a confined space.
10. In semiconductors, electrons play a key role in conduction.
11. The emission of electrons from a heated filament is known as thermionic emission.
12. Electrons can be accelerated by electric fields.
13. The interaction between electrons and photons leads to the phenomenon of light.
14. The arrangement of electrons determines an element's chemical properties.
15. Electrons in metals move freely, which is why they conduct electricity well.
16. When light hits a material, it can excite electrons to higher energy states.
17. Electrons can exhibit both particle-like and wave-like behavior.
18. The concept of electrons was first introduced by J.J. Thomson.
19. Electrons can be emitted from certain materials when exposed to ultraviolet light.
20. When electrons flow through a resistor, heat is generated.
21. The behavior of electrons in a magnetic field can be observed in an experiment.
22. In a chemical reaction, the transfer of electrons between atoms is crucial.
23. Electrons are fundamental to the field of electronics.
24. The presence of free electrons in a conductor is what allows for electric current.
25. Electrons can be captured by a positively charged ion.
26. In the atom, electrons occupy specific energy levels or shells.
27. The study of electrons has led to advancements in quantum computing.
28. Electrons can be accelerated to near-light speeds in particle accelerators.
29. The cloud of electrons around the nucleus gives an atom its size.
30. Electrons interact with each other through the electromagnetic force.
31. By controlling the flow of electrons, transistors can amplify signals.
32. In plasma, electrons move freely and are no longer bound to atoms.
33. The discovery of electrons revolutionized the field of physics.
34. Electrons are involved in the process of photosynthesis in plants.
35. Electrons can jump between energy levels when energy is absorbed.
36. The arrangement and movement of electrons determine the properties of materials.
37. Electrons can be trapped in a magnetic field using devices called traps.
38. The interaction of electrons with a laser can create new states of matter.
39. Electrons play a significant role in the functioning of batteries.
40. When electrons collide with atoms, they can cause ionization.
41. The flow of electrons is measured in amperes.
42. Electrons have a very small mass compared to protons and neutrons.
43. In superconductors, electrons can move without resistance.
44. The study of electrons has led to the development of electron microscopes.
45. Electrons can be emitted during radioactive decay.
46. The configuration of electrons in an atom is known as its electronic structure.
47. Electrons can exist in a superposition of states in quantum mechanics.
48. The movement of electrons in a circuit can be visualized using circuit diagrams.
49. Electrons can be influenced by both electric and magnetic fields.
50. The behavior of electrons is essential for understanding electricity and magnetism.
51. When electrons are added to a neutral atom, it becomes negatively charged.
52. Electrons play a key role in the formation of covalent bonds.
53. The flow of electrons is what powers our modern electronic devices.
54. Electrons can be detected using various types of sensors.
55. The potential energy of electrons is related to their position in an atom.
56. Electrons can be transferred from one atom to another during a chemical reaction.
57. The behavior of electrons is fundamental to the principles of chemistry.
58. Electrons can be manipulated using electric and magnetic fields in experiments.
59. The electric field generated by electrons can influence other charged particles.
60. Electrons have a fundamental role in the theory of electromagnetism.
61. The distribution of electrons around an atom influences its reactivity.
62. Electrons can travel through a vacuum without losing energy.
63. The study of electrons has implications in nanotechnology.
64. In certain materials, electrons can exist in pairs, leading to superconductivity.
65. The interaction of electrons with matter is fundamental to spectroscopy.
66. Electrons can be accelerated in cyclotrons for scientific research.
67. The concept of electrons is key to understanding solid-state physics.
68. Electrons can absorb and emit energy in quantized amounts.
69. The behavior of electrons in a solid is described by band theory.
70. Electrons are essential components of the atomic model.
71. In a plasma state, electrons are no longer bound to individual atoms.
72. Electrons have a negative charge of approximately -1.6 x 10^-19 coulombs.
73. The properties of electrons are governed by the principles of quantum mechanics.
74. Electrons can participate in several types of chemical bonding.
75. The flow of electrons can create magnetic fields around conductors.
76. Electrons can be emitted from materials through processes like photoelectric effect.
77. The study of electrons has led to significant advancements in physics and technology.
78. Electrons can transition between energy levels when they absorb photons.
79. The presence of electrons in a material can affect its thermal conductivity.
80. Electrons are involved in the process of oxidation and reduction in chemistry.
81. The motion of electrons in an electric field can be described by Ohm's law.
82. Electrons can be generated through various processes in a cathode ray tube.
83. The arrangement of electrons in a molecule determines its molecular geometry.
84. Electrons can tunnel through barriers in quantum mechanics.
85. The interaction of electrons with phonons can affect material properties.
86. Electrons can be detected using devices like photomultiplier tubes.
87. The concept of electrons is foundational to modern electronics.
88. In certain experiments, electrons can exhibit wave-particle duality.
89. Electrons can be influenced by external magnetic fields, causing them to spiral.
90. The distribution of electrons around an atom affects its ionization energy.
91. Electrons are involved in the conduction of heat in conductive materials.
92. The energy levels of electrons can be visualized using atomic orbital diagrams.
93. Electrons play a pivotal role in the development of new materials and technologies.
94. The behavior of electrons in different environments can vary significantly.
95. Electrons can be emitted in large numbers during electrical discharges.
96. The presence of free electrons in a metal contributes to its conductivity.
97. Electrons are crucial for the understanding of chemical kinetics.
98. The movement of electrons across a junction can create a potential difference.
99. Electrons are involved in various processes in biological systems.
100. The study of electrons continues to be an active area of research in science.