100 Examples of sentences containing the common noun "electromagnetism"

Definition

Electromagnetism is a fundamental branch of physics that deals with the study of electric and magnetic fields and their interactions with each other and with matter. It encompasses various phenomena, including electricity, magnetism, and electromagnetic waves.

Synonyms

• Electromagnetic force
• Electrostatics (when concerning stationary charges)
• Magnetostatics (when concerning stationary magnetic fields)
• Electrodynamics (when concerning moving charges)

Antonyms

• Gravitation (in terms of fundamental forces)
• Static electricity (when contrasted with dynamic electromagnetic phenomena)

Examples

1. Scientists Electromagnetism to explain how electric currents can create magnetic fields.
2. Engineers Electromagnetism in designing electric motors and generators.
3. Physicists Electromagnetism to understand the behavior of light as an electromagnetic wave.
4. The study of Electromagnetism has led to numerous technological advancements.
5. The principles of Electromagnetism are essential for modern telecommunications.
6. Researchers Electromagnetism to develop new materials for better electrical conductivity.
7. The interaction between electric charges demonstrates how Electromagnetism operates.
8. In medical imaging, devices Electromagnetism to create detailed images of the human body.
9. The phenomenon of Electromagnetism plays a crucial role in particle physics.
10. The principles of Electromagnetism are used in various applications, from motors to transformers.
11. Engineers often Electromagnetism to enhance the efficiency of energy transmission.
12. The theory of Electromagnetism was significantly advanced by James Clerk Maxwell.
13. Everyday appliances Electromagnetism to function, such as microwaves and refrigerators.
14. The concept of Electromagnetism is vital for understanding wireless communication.
15. Scientists Electromagnetism to investigate the properties of superconductors.
16. The study of Electromagnetism includes both static and dynamic fields.
17. The applications of Electromagnetism are vast and varied in modern technology.
18. Understanding Electromagnetism is essential for electrical engineering students.
19. The force of Electromagnetism is one of the four fundamental forces of nature.
20. The behavior of charged particles in a magnetic field can be explained through Electromagnetism.
21. Quantum mechanics often intersects with Electromagnetism in advanced theories.
22. Knowledge of Electromagnetism is critical for developing renewable energy technologies.
23. The principles of Electromagnetism govern how electric fields interact with magnetic fields.
24. Scientists Electromagnetism to create theories about the universe's fundamental forces.
25. The design of electric circuits heavily relies on the principles of Electromagnetism.
26. The impact of Electromagnetism on modern physics cannot be overstated.
27. The discovery of Electromagnetism changed the way we understand energy and matter.
28. Engineers Electromagnetism to improve the design of wireless charging systems.
29. The relationship between electricity and magnetism is defined by Electromagnetism.
30. The applications of Electromagnetism extend into medical technology as well.
31. Understanding how Electromagnetism works is crucial for developing new electronic devices.
32. The principles of Electromagnetism help explain how antennas transmit signals.
33. The interaction of light with matter is often described using concepts from Electromagnetism.
34. Researchers Electromagnetism in the development of advanced sensors.
35. The principles of Electromagnetism are utilized in particle accelerators.
36. Students in physics courses often conduct experiments to demonstrate Electromagnetism.
37. The theories that underpin Electromagnetism are foundational to many scientific disciplines.
38. Engineers Electromagnetism to optimize the efficiency of electric vehicles.
39. The study of Electromagnetism has applications in climate science as well.
40. Researchers Electromagnetism to develop new technologies for energy harvesting.
41. The connection between Electromagnetism and thermodynamics is a topic of interest.
42. The exploration of Electromagnetism has led to innovations in laser technology.
43. The phenomenon of Electromagnetism is observable in everyday life, from lightning to magnets.
44. Scientists Electromagnetism to create simulations for studying cosmic phenomena.
45. The principles of Electromagnetism are fundamental to modern physics curricula.
46. Engineers Electromagnetism to create more efficient power grids.
47. The study of Electromagnetism has evolved over centuries, shaping scientific thought.
48. The effects of Electromagnetism can be observed in nature, such as in auroras.
49. Researchers Electromagnetism to investigate the behavior of plasmas.
50. The study of Electromagnetism is crucial for understanding wave-particle duality.
51. Knowledge of Electromagnetism is essential for developing telecommunications infrastructure.
52. The principles of Electromagnetism are applied in designing efficient lighting systems.
53. Scientists Electromagnetism to better understand electromagnetic radiation's effects on health.
54. The understanding of Electromagnetism has opened doors to new fields of study, such as nanotechnology.
55. Engineers Electromagnetism to create systems for controlling electric vehicles.
56. The effects of Electromagnetism are crucial for the functioning of MRI machines.
57. The study of Electromagnetism is key to the development of quantum computing.
58. Researchers Electromagnetism to explore the potential of wireless energy transfer.
59. The principles of Electromagnetism are foundational in the field of optics.
60. Engineers often Electromagnetism to improve the performance of audio equipment.
61. The applications of Electromagnetism in aerospace technology are significant.
62. The understanding of Electromagnetism is vital for developing smart grid technologies.
63. Scientists Electromagnetism to study the effects of electromagnetic fields on living organisms.
64. The principles of Electromagnetism underpin the operation of various household appliances.
65. Engineers Electromagnetism to create more effective wireless communication systems.
66. The study of Electromagnetism has led to significant advancements in computer technology.
67. Researchers Electromagnetism to investigate the properties of novel materials.
68. The principles of Electromagnetism are applied in the design of robotics.
69. Scientists Electromagnetism to enhance the capabilities of satellite communications.
70. The effects of Electromagnetism can be harnessed in renewable energy projects.
71. Engineers Electromagnetism to develop advanced battery technologies.
72. The understanding of Electromagnetism is crucial for aerospace navigation systems.
73. Researchers Electromagnetism to explore the potential of electromagnetic propulsion.
74. The study of Electromagnetism includes both theoretical and experimental approaches.
75. Engineers Electromagnetism to design efficient electric power systems.
76. The principles of Electromagnetism are utilized in the field of environmental monitoring.
77. Scientists Electromagnetism to develop new diagnostic tools in medicine.
78. Understanding Electromagnetism is essential for careers in physics and engineering.
79. The discovery of Electromagnetism has revolutionized the way we use technology.
80. Researchers Electromagnetism to study the interactions between light and matter.
81. The interplay of Electromagnetism and gravity is a topic of ongoing research.
82. Engineers Electromagnetism to create more sustainable energy solutions.
83. The principles of Electromagnetism are key to understanding modern optics.
84. Scientists Electromagnetism to investigate the potential of fusion energy.
85. The study of Electromagnetism is integral to understanding the universe's structure.
86. Researchers Electromagnetism to explore new frontiers in space exploration.
87. The principles of Electromagnetism guide the development of advanced manufacturing techniques.
88. Engineers Electromagnetism to improve the efficiency of industrial machinery.
89. The study of Electromagnetism has practical applications in everyday technology.
90. Scientists Electromagnetism to create innovative solutions for environmental challenges.
91. The relationship between Electromagnetism and thermal dynamics is complex and fascinating.
92. Engineers Electromagnetism to develop cutting-edge communication technologies.
93. The applications of Electromagnetism extend to various scientific disciplines.
94. Researchers Electromagnetism to analyze the impact of electromagnetic fields on climate.
95. The principles of Electromagnetism are foundational in the field of electrochemistry.
96. Scientists Electromagnetism to understand the behavior of materials at the atomic level.
97. The study of Electromagnetism is essential for developing next-generation technology.
98. Engineers Electromagnetism to design systems for efficient energy distribution.
99. The advances in Electromagnetism have significantly impacted global communication.
100. Researchers Electromagnetism to explore innovative solutions for energy efficiency.