100 Examples of sentences containing the common noun "epicycles"

Definition

Epicycles refers to a concept in astronomy and mathematics, historically used to describe the circular orbits of celestial bodies around a larger circular orbit. This model was part of the Ptolemaic system, where planets were thought to move in small circles (epicycles) that in turn moved along larger circles (deferents) around the Earth.

Synonyms

• Circles
• Orbits
• Revolutions
• Loops
• Cycles

Antonyms

• Straight paths
• Linear motion
• Direct routes
• Tangents
• Non-circular paths

Examples

1. The ancient astronomers epicycles to explain the retrograde motion of planets.
2. In their model, planets epicycles along with their deferents.
3. The Ptolemaic system relied on epicycles to maintain an Earth-centered universe.
4. Scientists eventually moved away from epicycles in favor of heliocentric models.
5. The complexity of the system of epicycles baffled many mathematicians for centuries.
6. Modern astronomy does not use epicycles to describe planetary motion.
7. The notion of epicycles was revolutionary in understanding celestial movements.
8. Kepler's laws of planetary motion eliminated the need for epicycles.
9. The use of epicycles illustrated the limitations of the geocentric model.
10. Schools of thought debated the validity of epicycles versus elliptical orbits.
11. The model of epicycles was an attempt to reconcile observations with theory.
12. Galileo's work challenged the necessity of epicycles.
13. The concept of epicycles arose from the need to explain apparent planetary motion.
14. Astronomers once thought that epicycles provided a complete picture of the cosmos.
15. The theory of epicycles dominated astronomical thought for many centuries.
16. With the advent of telescopes, the inaccuracies of epicycles became evident.
17. The calculation of epicycles was a tedious process for early astronomers.
18. The philosophical implications of epicycles were significant in the history of science.
19. During the Renaissance, the debate over epicycles intensified.
20. The elliptical orbits proposed by Kepler rendered epicycles obsolete.
21. Many historical texts meticulously describe the function of epicycles.
22. The intricacies of epicycles could confuse even the most seasoned mathematicians.
23. The decline of epicycles marked a shift towards modern astronomy.
24. The beauty of the epicycles model lay in its mathematical elegance.
25. Scholars studied epicycles to better understand celestial mechanics.
26. The rejection of epicycles was a fundamental moment in the scientific revolution.
27. The calculations involving epicycles were often complex and time-consuming.
28. Epicycles were a cornerstone of the Ptolemaic model of the universe.
29. The transition from epicycles to heliocentrism changed how we view our place in the universe.
30. The concept of epicycles was eventually replaced by Newton's laws of motion.
31. Observational astronomy has shown that epicycles are not necessary for understanding planetary paths.
32. The theory of epicycles illustrates the evolution of scientific thought.
33. Some astronomers still reference epicycles in historical discussions.
34. The notion that planets epicycles prompted new questions about gravity and motion.
35. The debate over the validity of epicycles reflected broader scientific tensions.
36. Understanding epicycles is essential for appreciating the history of astronomy.
37. The concept of epicycles involved intricate geometrical constructions.
38. Early models of the solar system relied heavily on epicycles.
39. The philosophy of science was influenced by the acceptance and rejection of epicycles.
40. The historical context of epicycles provides insight into the scientific method.
41. By analyzing epicycles, astronomers could predict planetary positions.
42. The model of epicycles was a significant step in the development of celestial mechanics.
43. The use of epicycles illustrates how science evolves over time.
44. Many early scientific texts contain detailed discussions of epicycles.
45. The term epicycles is often used as a metaphor for complexity in explanations.
46. The intricacies of epicycles highlight the challenges faced by early scientists.
47. The rejection of epicycles was a milestone in the advancement of astronomy.
48. Understanding the historical context behind epicycles sheds light on scientific progress.
49. The mathematical formulations involving epicycles were groundbreaking in their time.
50. The idea that planets epicycles became an accepted norm before the heliocentric model.
51. Many students struggle to grasp the concept of epicycles in astronomy courses.
52. The extensive calculations required for epicycles were daunting for early scholars.
53. Epicycles represented a significant attempt to explain celestial phenomena.
54. The beauty of the epicycles model was eventually overshadowed by new discoveries.
55. The historical significance of epicycles cannot be underestimated.
56. The intricate paths described by epicycles fascinated astronomers of the past.
57. The complexity of epicycles is a testament to the ingenuity of early scientists.
58. The gradual decline of epicycles marked a pivotal moment in astronomy.
59. Epicycles served as a bridge between ancient and modern astronomical theories.
60. The study of epicycles is crucial for understanding the evolution of scientific concepts.
61. In teaching astronomy, epicycles are often introduced to explain historical beliefs.
62. The rejection of epicycles paved the way for a clearer understanding of the cosmos.
63. The concept of epicycles was central to the geocentric model of the universe.
64. The transition from epicycles to elliptical orbits was revolutionary.
65. The historical context of epicycles provides valuable insights into scientific discourse.
66. The theories surrounding epicycles illustrate the iterative nature of scientific progress.
67. The idea that planets epicycles was accepted for many generations.
68. The historical debate over epicycles continues to intrigue scholars today.
69. The use of epicycles can be seen as a precursor to modern astronomical models.
70. Understanding epicycles is essential for appreciating the history of cosmology.
71. The intricacies of epicycles highlight the challenges faced by astronomers in the past.
72. The eventual rejection of epicycles symbolized a shift towards empirical observation.
73. The discussion of epicycles often arises in the context of scientific revolutions.
74. The mathematical elegance of epicycles was admired by many mathematicians.
75. The evolution of astronomical models reflects the changing views on epicycles.
76. The history of epicycles is a fascinating journey through scientific thought.
77. Epicycles demonstrate the complexities inherent in modeling celestial phenomena.
78. The Ptolemaic system's reliance on epicycles significantly influenced astronomy.
79. The intricate motion of planets can be described using epicycles.
80. The debate regarding the necessity of epicycles reflects broader scientific paradigms.
81. The calculations involved in epicycles were often cumbersome and complicated.
82. The historical impact of epicycles is a testament to the evolution of science.
83. The transition from epicycles to modern theories showcases the progress of human knowledge.
84. Many renowned astronomers struggled with the concept of epicycles.
85. The concept of epicycles is often discussed in the context of historical astronomy.
86. The complexity of epicycles is a reminder of the challenges faced by early scientists.
87. The eventual decline of epicycles was a significant milestone in scientific thinking.
88. The historical significance of epicycles cannot be overstated in the realm of astronomy.
89. The mathematical models involving epicycles were groundbreaking for their time.
90. The intricate details of epicycles often confuse modern students of astronomy.
91. The concept of epicycles was a critical aspect of the Ptolemaic worldview.
92. The historical context of epicycles provides insights into the evolution of science.
93. The complexity of epicycles reflects the ingenuity of ancient astronomers.
94. The rejection of epicycles paved the way for the acceptance of heliocentrism.
95. The intricate orbits described by epicycles fascinated early scientists.
96. The philosophical implications of epicycles were profound in the history of science.
97. The notion of epicycles illustrates the iterative nature of scientific progress.
98. The legacy of epicycles continues to influence modern astronomical thought.
99. The eventual dismissal of epicycles marked a turning point in scientific inquiry.
100. Understanding the concept of epicycles is crucial for grasping the history of astronomy.