100 Examples of sentences containing the common noun "ejecta"

Definition

Ejecta refers to materials that are expelled from a celestial body during events such as volcanic eruptions or impact events. These materials can include rocks, ash, gas, and other debris. In a broader geological context, ejecta can also refer to any substance that is thrown out from a process, such as a comet or asteroid impact.

Synonyms

• Debris
• Fragments
• Material
• Ash
• Outflow
• Spoils

Antonyms

• Ingress
• Inflow
• Intake
• Insertion
• Accumulation

Examples

1. The volcano's ejecta covered the surrounding landscape in a thick layer of ash.
2. Scientists studied the ejecta from the impact crater to understand the event better.
3. The ejecta from the explosion scattered debris over a wide area.
4. Astronomers analyze lunar ejecta to learn about the Moon's geological history.
5. The ejecta from the comet provided valuable insights into the solar system's formation.
6. After the eruption, the ejecta created new landforms in the region.
7. The ejecta plume rose high into the atmosphere, affecting local weather patterns.
8. Researchers collected ejecta samples for further examination in the lab.
9. The impact of the asteroid caused significant ejecta to be thrown into space.
10. The volcanic ejecta included large boulders that rolled down the mountainside.
11. The team's mission was to analyze the ejecta for signs of ancient life.
12. The ejecta from the collision created a ring of debris around the planet.
13. The ejecta from the supernova enriched the surrounding gas clouds with heavy elements.
14. Geologists mapped the distribution of ejecta to reconstruct the eruption's dynamics.
15. The ejecta settled back to Earth, blanketing the area in a fine layer of ash.
16. During the mission, the spacecraft collected ejecta from the surface of the asteroid.
17. The study focused on the chemical composition of the ejecta from the volcano.
18. The ejecta formed a distinctive layer in the geological record.
19. The ejecta from the impact created a series of small craters on the surface.
20. The research team used drones to survey the area affected by the ejecta.
21. As the eruption continued, the ejecta increased in volume and intensity.
22. The ejecta cloud rose several kilometers into the atmosphere.
23. The ejecta from the explosion was scattered by the wind.
24. The presence of certain minerals in the ejecta suggested a specific type of magma.
25. Scientists estimate that the ejecta from the impact could have affected climate patterns.
26. The ejecta from the blast was analyzed for its isotopic composition.
27. Observations of lunar ejecta help researchers understand the Moon's surface processes.
28. The ejecta from the volcanic island formed new reefs over time.
29. A team of geologists studied the ejecta layers to understand the eruption's timeline.
30. The ejecta was so extensive that it altered the local ecosystem significantly.
31. The researchers used advanced imaging techniques to visualize the ejecta distribution.
32. The ejecta were ejected at high velocities, creating shockwaves in the surrounding area.
33. The analysis of the ejecta revealed previously unknown minerals.
34. The ejecta from the geological event was found to contain ancient fossils.
35. The volcanic ejecta posed a risk to air travel in the region.
36. The ejecta cloud was monitored for any potential hazards to nearby populations.
37. The study of ejecta is crucial for understanding planetary formation.
38. The ejecta from the asteroid impact was a source of excitement for researchers.
39. The ejecta created a unique geological formation that attracted tourists.
40. The ejecta spread over a large area, affecting multiple ecosystems.
41. The team documented the ejecta to create a comprehensive geological map.
42. The ejecta were believed to have caused a mass extinction event millions of years ago.
43. The researchers used a spectrometer to analyze the ejecta's chemical makeup.
44. The ejecta from the volcanic eruption was visible from hundreds of kilometers away.
45. The ejecta were blown away from the eruption site by strong winds.
46. The ejecta fell back to the surface, creating new layers of sediment.
47. The ejecta provided clues about the eruption's intensity and duration.
48. The impact event resulted in a significant amount of ejecta being thrown into orbit.
49. The study of ejecta can help predict future geological events.
50. The ejecta were collected from various sites to ensure a comprehensive analysis.
51. The ejecta from the volcanic island contributed to the formation of new land.
52. The researchers were excited to discover unique features in the ejecta.
53. The ejecta from the impact event varied in size and composition.
54. The ejecta included both solid and gaseous materials.
55. The presence of certain elements in the ejecta indicated volcanic activity.
56. The ejecta spread out like a fan from the eruption's vent.
57. The ejecta were analyzed using both field studies and laboratory techniques.
58. The ejecta from the explosion caused damage to nearby structures.
59. The ejecta formed a protective barrier around the volcanic crater.
60. The ejecta were so hot that they started fires in the surrounding vegetation.
61. The researchers compiled a database of ejecta characteristics for future studies.
62. The ejecta were monitored for signs of chemical reactions with the atmosphere.
63. The ejecta cloud lingered in the atmosphere for days after the explosion.
64. The study of ejecta is vital for understanding planetary atmospheres.
65. The ejecta from the impact site was rich in organic compounds.
66. The ejecta were a mix of fine ash and larger rocks.
67. The ejecta pattern revealed the direction of the explosion's force.
68. The presence of ice in the ejecta surprised scientists studying the impact.
69. The ejecta formed a new layer of soil that supported plant growth.
70. The ejecta were analyzed for potential hazards to public health.
71. The ejecta from the eruption reached altitudes of over 10 kilometers.
72. The research focused on how the ejecta affected local water sources.
73. The ejecta yielded important information about the planet's crust.
74. The ejecta were used to create detailed 3D models of the impact site.
75. The analysis of ejecta can help understand the evolution of the planet.
76. The ejecta cloud created a stunning visual display in the night sky.
77. The ejecta were found to contain traces of ancient organisms.
78. The ejecta were crucial for reconstructing the events of the eruption.
79. Scientists used radar to track the movement of the ejecta.
80. The ejecta from the volcanic activity had far-reaching effects on climate.
81. The ejecta settled over the course of several weeks after the event.
82. The research team presented their findings on the ejecta at a conference.
83. The ejecta were dispersed by prevailing wind patterns.
84. The presence of heavy metals in the ejecta raised environmental concerns.
85. The ejecta were categorized based on their size and composition.
86. The ejecta formed unique geological formations over time.
87. The ejecta were captured in high-resolution images taken from space.
88. The study of ejecta helps improve models of planetary impact events.
89. The ejecta were analyzed to determine the age of the impact crater.
90. The ejecta from the explosion created new habitats for various species.
91. The team found that the ejecta contained a variety of volcanic gases.
92. The ejecta posed challenges for local infrastructure after the eruption.
93. The ejecta from the impact was visible in satellite imagery.
94. The ejecta were dispersed across a wide area, affecting multiple ecosystems.
95. The analysis of ejecta can provide insights into past environmental changes.
96. The ejecta from the volcano disrupted air travel for several days.
97. The ejecta were collected during an expedition to the remote island.
98. The ejecta contained materials that had not been previously identified.
99. The researchers used various techniques to model the behavior of ejecta.
100. The ejecta from the impact event reshaped the landscape dramatically.