100 Examples of sentences containing the common noun "hysteresis"

Definition

Hysteresis refers to the phenomenon in which the state of a system depends not only on its current environment but also on its history. It is commonly observed in physics and engineering, particularly in systems involving materials that exhibit a lag between the input and output responses, such as magnetic materials, elastic materials, and thermodynamic systems.

Synonyms

• Lag effect
• Memory effect
• Delayed response
• Feedback loop

Antonyms

• Instantaneous response
• Direct response
• Non-hysteretic behavior

Examples

1. The magnetic properties of the material showed significant hysteresis when subjected to varying magnetic fields.
2. The hysteresis in the material’s stress-strain curve indicated its elastic limit.
3. Engineers must consider hysteresis when designing systems that require precise control.
4. In thermodynamics, the hysteresis of a phase transition can impact system stability.
5. The hysteresis effect can lead to energy losses in mechanical systems.
6. Observations of hysteresis in climate data suggest long-term trends are influenced by previous conditions.
7. The hysteresis loop of the ferromagnetic material revealed insights about its performance.
8. Scientists study hysteresis to understand how systems evolve over time.
9. The hysteresis in the feedback control system caused delays in output responses.
10. Due to hysteresis, the temperature readings fluctuated even after the heater was turned off.
11. In his research, the scientist explored the implications of hysteresis in biological systems.
12. The hysteresis observed in the electronic circuit affected its stability.
13. The hysteresis phenomenon can complicate the analysis of dynamic systems.
14. With hysteresis, the output voltage of the device was not directly proportional to the input.
15. The hysteresis in the rubber band demonstrated its elastic properties effectively.
16. The team measured the hysteresis in the pressure-volume relationship of the gas.
17. The hysteresis effects in the sensor readings required calibration for accuracy.
18. In economics, hysteresis can describe persistent unemployment following a recession.
19. The research paper highlighted the hysteresis in the response of the material to stress.
20. The hysteresis of the control system introduced instability in the process.
21. Understanding hysteresis is crucial for predicting material behavior under cyclic loads.
22. The hysteresis loop provided essential data for the thermodynamic analysis.
23. The hysteresis in the system's performance raised questions about its reliability.
24. Observations of hysteresis in animal behavior can reveal environmental impacts.
25. The hysteresis effect made it difficult to achieve precise temperature control.
26. Researchers investigated the hysteresis in the growth patterns of the bacteria.
27. The hysteresis in the output response was significant enough to warrant further study.
28. The hysteresis observed in the reaction rates can complicate chemical modeling.
29. The presence of hysteresis in the data suggested a need for more complex algorithms.
30. The hysteresis effect in magnetic materials is critical for the design of transformers.
31. Analyzing the hysteresis phenomenon can provide insights into system dynamics.
32. The hysteresis in the temperature profile indicated delayed thermal responses.
33. The team documented the hysteresis observed during the experimental trials.
34. The hysteresis in the stress-strain relationship was evident in the test results.
35. Researchers found hysteresis in the environmental responses of the ecosystem.
36. The hysteresis in the electrical circuit resulted in unpredictable outcomes.
37. The hysteresis observed in the energy consumption patterns raised concerns.
38. Scientists used models to predict hysteresis in the climate system.
39. The hysteresis loop indicated that the material had been subjected to cyclic loading.
40. Understanding hysteresis helps in designing resilient infrastructure.
41. The hysteresis in the system’s output was linked to thermal lag.
42. The hysteresis phenomenon can influence decision-making processes in economics.
43. The team explored the implications of hysteresis for renewable energy sources.
44. The hysteresis in the material's response was a critical factor in its application.
45. Observations of hysteresis in the data suggested a need for further investigation.
46. The hysteresis effect complicated the interpretation of the experimental results.
47. The hysteresis properties of the polymer were tested under various conditions.
48. The hysteresis observed in the project's timeline led to delays in completion.
49. The hysteresis in the system's dynamics was modeled using advanced simulations.
50. Researchers are studying hysteresis to improve sensor technologies.
51. The hysteresis effect was particularly pronounced in high-stress applications.
52. The hysteresis in the output signal required careful calibration of the device.
53. The team noted that hysteresis can lead to inefficiencies in mechanical systems.
54. The hysteresis of the rubber material was tested in various environmental conditions.
55. Observations of hysteresis in population dynamics can inform conservation efforts.
56. The hysteresis effect introduced challenges in maintaining system stability.
57. The hysteresis in the energy storage system was analyzed for performance optimization.
58. The hysteresis observed in the fluid flow indicated complex underlying processes.
59. In robotics, hysteresis can affect the accuracy of movement control.
60. The researchers noted that hysteresis might play a role in feedback mechanisms.
61. The hysteresis in the mechanical properties of the alloy was thoroughly examined.
62. The hysteresis loop’s area was indicative of energy loss in the system.
63. The hysteresis phenomenon was evident in the temperature fluctuations.
64. The hysteresis effect can complicate the design of efficient systems.
65. The hysteresis in the response of the system required adjustments to the model.
66. Researchers found that understanding hysteresis was vital for accurate predictions.
67. The hysteresis observed in the magnetic field strength was significant for applications.
68. The hysteresis in the electrical system demanded innovative solutions.
69. The hysteresis effect was documented in the mechanical testing phase.
70. The team conducted experiments to quantify the hysteresis in the material.
71. The hysteresis loop provided critical data for the analysis of the system.
72. The hysteresis in biological responses can have ecological implications.
73. The hysteresis effect was analyzed in the context of system resilience.
74. The hysteresis in the data patterns indicated a potential for model improvement.
75. The hysteresis phenomenon complicates the understanding of system behavior.
76. Engineers often encounter hysteresis when dealing with complex materials.
77. Observations of hysteresis in the mechanical system led to design revisions.
78. The hysteresis in the response times of the sensors was a key focus of the study.
79. The hysteresis effects observed in the data were attributed to external influences.
80. The team investigated the role of hysteresis in the overall system efficiency.
81. The hysteresis in the stress response was crucial for material selection.
82. Researchers are exploring how hysteresis can impact technological advancements.
83. The hysteresis in the liquid flow dynamics posed challenges for analysis.
84. The hysteresis in the feedback loop affected the system's overall performance.
85. The hysteresis in the temperature response was linked to material properties.
86. The hysteresis effect highlighted the need for adaptive control mechanisms.
87. The team conducted a thorough analysis of the hysteresis in the data.
88. The hysteresis observed in the mechanical tests was significant for safety assessments.
89. The hysteresis in the response curve required recalibration of the instruments.
90. Understanding hysteresis is essential for improving product design.
91. The hysteresis observed in the climate models suggested long-term changes.
92. The hysteresis effect can lead to substantial inefficiencies in operational systems.
93. The hysteresis in the material's response to pressure was carefully measured.
94. The team aimed to reduce hysteresis in the system for better performance.
95. The hysteresis observed in the population dynamics indicated environmental stresses.
96. The hysteresis loop's characteristics were critical for the material's application.
97. The hysteresis in the flow rate required adjustments to the system design.
98. Researchers noted that hysteresis could influence economic recovery patterns.
99. The hysteresis effect in the algorithm led to unexpected results.
100. Understanding the hysteresis in the input-output relationship is vital for optimization.