100 Examples of sentences containing the common noun "geodesic"

Definition

A Geodesic is a noun that refers to the shortest path between two points on a curved surface, often used in mathematics, physics, and engineering. In architectural contexts, it commonly refers to a geodesic dome, which is a spherical structure made up of a network of triangles that distributes stress evenly.

Synonyms

• Shortest path
• Curve
• Arc
• Great circle
• Geodesic line

Antonyms

• Long path
• Straight line (in a non-curved context)
• Divergent path

Examples

1. The architect designed the building with a bold geodesic structure.
2. Scientists often use geodesic calculations to determine the most efficient route for satellites.
3. The geodesic dome is known for its strength and stability.
4. Engineers consider geodesic principles when creating complex structures.
5. The mathematician explained how to find a geodesic on a sphere.
6. During the expedition, the team traveled along a geodesic route to reach their destination.
7. The geodesic framework provides excellent support for heavy loads.
8. In geography, a geodesic is essential for accurate mapping.
9. The team analyzed the data to find the geodesic distance between the two cities.
10. The artist created a sculpture inspired by geodesic shapes.
11. The concept of geodesic plays a crucial role in modern architecture.
12. The researchers studied the geodesic properties of the Earth.
13. The new software calculates the geodesic distance between points efficiently.
14. The geodesic model demonstrates the curvature of space.
15. Tourists admired the geodesic dome at the science museum.
16. The physics professor lectured on the importance of geodesic paths in relativity.
17. The design team implemented a geodesic approach to optimize energy use.
18. The geodesic network connects various points across the landscape.
19. The engineer utilized geodesic calculations to enhance the bridge's design.
20. The geodesic lines on the map indicate the shortest travel routes.
21. The students learned about geodesic curves in their math class.
22. The architect incorporated geodesic principles into the new stadium design.
23. The geodesic model illustrates the relationship between different geographical locations.
24. The scientist measured the geodesic distance using advanced technology.
25. The team discussed the implications of geodesic shapes in urban planning.
26. The geodesic framework allowed for more open spaces in the building.
27. The geodesic dome has become a popular choice for eco-friendly homes.
28. The mathematician derived the formula for calculating geodesic distances.
29. The research project focused on the applications of geodesic geometry.
30. The geodesic approach ensures structural integrity in complex designs.
31. The team mapped the geodesic paths for their hiking expedition.
32. The geodesic line represents the shortest distance on a curved surface.
33. The architect emphasized the benefits of using geodesic designs.
34. The geodesic structure withstood severe weather conditions.
35. The professor encouraged students to explore geodesic concepts in their projects.
36. The geodesic framework is key to the dome's stability.
37. The project required extensive knowledge of geodesic calculations.
38. The geodesic dome was constructed using lightweight materials.
39. The team evaluated the geodesic efficiency of various designs.
40. The geodesic principles guided their approach to problem-solving.
41. The map illustrated the geodesic routes connecting the cities.
42. The geodesic design reduced material costs significantly.
43. The professor highlighted the role of geodesic paths in navigation.
44. The geodesic model showcased the beauty of mathematical structures.
45. The engineer developed a new technique for optimizing geodesic designs.
46. The students practiced finding geodesic distances on various surfaces.
47. The geodesic shape attracted attention for its innovative design.
48. The construction team implemented geodesic principles in their work.
49. The geodesic dome serves as a community gathering space.
50. The project involved creating a detailed geodesic map of the area.
51. The engineer analyzed the geodesic properties of the materials used.
52. The geodesic calculations proved essential for the project's success.
53. The architect published a paper on advancements in geodesic design.
54. The team studied how geodesic lines affect climate patterns.
55. The geodesic structure was praised for its sustainability.
56. The calculations confirmed the accuracy of the geodesic paths.
57. The professor explored the historical significance of geodesic geometry.
58. The geodesic principles underpinned the design of the new bridge.
59. The artist experimented with geodesic shapes in their latest work.
60. The geodesic analysis revealed new insights about the landscape.
61. The team collaborated with experts in geodesic architecture.
62. The geodesic framework enabled creative solutions to engineering challenges.
63. The course included extensive lessons on geodesic calculations.
64. The geodesic model helped visualize complex scientific concepts.
65. The architect championed the use of geodesic designs in modern buildings.
66. The research focused on the efficiency of geodesic structures.
67. The geodesic paths were essential for planning the new transportation system.
68. The professor demonstrated the geodesic approach in practical applications.
69. The team utilized geodesic principles to enhance the project’s design.
70. The geodesic structure is a marvel of modern engineering.
71. The students created models based on geodesic designs.
72. The geodesic lines connected various points of interest on the map.
73. The research project highlighted the importance of geodesic measurements.
74. The geodesic dome attracted visitors from around the world.
75. The team compiled a report on the benefits of geodesic designs.
76. The geodesic analysis provided valuable data for the study.
77. The architect recommended using geodesic shapes for better insulation.
78. The geodesic framework allowed for quick assembly of the structure.
79. The project incorporated cutting-edge geodesic technology.
80. The geodesic design is favored for its aesthetic appeal.
81. The team conducted experiments to test geodesic efficiency.
82. The geodesic principles were applied in the new construction guidelines.
83. The architect showcased geodesic designs at the conference.
84. The geodesic dome is a symbol of innovation in architecture.
85. The research findings expanded knowledge of geodesic applications.
86. The team reviewed the advantages of geodesic structures.
87. The geodesic distance was calculated using advanced algorithms.
88. The professor introduced the concept of geodesic curves to the class.
89. The geodesic path was the most efficient route for the journey.
90. The architect explored various materials for constructing geodesic domes.
91. The geodesic framework ensured the structure's longevity.
92. The team discussed the implications of geodesic designs in urban environments.
93. The geodesic lines were clearly marked on the topographic map.
94. The architect revised the plans to include a geodesic feature.
95. The geodesic structure is an example of modern sustainable design.
96. The research focused on the environmental impact of geodesic buildings.
97. The geodesic dome provided a unique venue for events.
98. The team investigated the historical use of geodesic principles in architecture.
99. The geodesic design allowed for maximum interior space.
100. The professor emphasized the relevance of geodesic paths in physics.