100 Examples of sentences containing the common noun "propellant"

Definition

A propellant is a substance that is used to create thrust in engines and propulsion systems, typically by undergoing combustion or rapid expansion. It can refer to both solid and liquid materials that are employed in rockets, missiles, and other vehicles to propel them forward. In a broader sense, propellant can also refer to any substance used to drive or push something else forward or into action.

Synonyms

• Fuel
• Driving force
• Propulsive agent
• Rocket fuel
• Gas

Antonyms

• Brake
• Restraint
• Hindrance
• Inhibition
• Stop

Examples

1. The rocket's propellant ignited, sending it soaring into the sky.
2. Engineers are testing a new propellant for increased efficiency.
3. The launch was delayed due to a shortage of propellant.
4. Scientists are researching environmentally friendly propellant alternatives.
5. The missile's propellant was designed for maximum thrust.
6. She mixed the chemicals to create a propellant for her model rocket.
7. The propellant used in this engine is highly classified.
8. The spacecraft relies on a powerful propellant to escape Earth's gravity.
9. The propellant chamber was filled with a highly volatile mixture.
10. Propellant technology has advanced significantly over the last few decades.
11. The test flight demonstrated the effectiveness of the new propellant.
12. To achieve higher speeds, they needed a better propellant.
13. The propellant ignited, creating a loud explosion.
14. The engineers carefully calculated the amount of propellant needed for the mission.
15. The propellant system failed during the final countdown.
16. She adjusted the propellant mixture for optimal performance.
17. The rocket's propellant burned for only a few seconds.
18. The propellant used in the experiment was non-toxic.
19. He explained how the propellant works in a combustion engine.
20. The new propellant formulation increased thrust by 20%.
21. The propellant tank was leaking, causing concerns among the crew.
22. They discussed the potential uses of the propellant in future missions.
23. The propellant must be stored at low temperatures to remain stable.
24. The propellant caused the satellite to reach its orbit.
25. She watched as the propellant ignited during the launch sequence.
26. The spacecraft had multiple types of propellant for different phases of the mission.
27. The old propellant design was deemed inefficient.
28. The researchers were excited about their breakthrough in propellant technology.
29. The use of solid propellant increases safety during transport.
30. The propellant was developed for use in unmanned aerial vehicles.
31. He explained how the propellant produced thrust in the engine.
32. The propellant was tested under extreme conditions.
33. The propellant system was designed to be reusable.
34. They calculated how much propellant was needed for the journey.
35. The propellant had a powerful effect on the rocket's launch.
36. The new propellant could revolutionize space travel.
37. The propellant was carefully monitored during the launch.
38. The failure of the propellant system led to mission abort.
39. She learned about the different types of propellant used in space exploration.
40. The propellant was injected into the combustion chamber.
41. The study focused on improving the efficiency of the propellant.
42. The propellant choice can significantly affect the outcome of the flight.
43. The team experimented with various propellant compositions.
44. The propellant utilized in this vehicle is highly specialized.
45. The safety protocols for handling propellant are strict.
46. The launch site had facilities for testing propellant mixtures.
47. They had to clean the propellant lines before the next test.
48. The propellant used in fireworks is different from that in rockets.
49. She was fascinated by how propellant chemistry works.
50. The mechanics of the propellant system were complex.
51. The propellant efficiency was compared to previous models.
52. The mission's success depended on the reliability of the propellant.
53. The propellant ignited with a bright flash.
54. The engineers optimized the propellant for lower emissions.
55. The testing of the propellant revealed unexpected results.
56. The propellant was designed for high-altitude performance.
57. Anomalies in the propellant flow were detected during the test.
58. The propellant system was the heart of the rocket.
59. She explained how the propellant reaction produces thrust.
60. The propellant chamber was built to withstand high pressure.
61. The propellant was stored in a secure facility.
62. The design of the propellant nozzle is crucial for efficiency.
63. They developed a new type of propellant for drones.
64. During the launch, the propellant burned brightly against the night sky.
65. The propellant had to be tested multiple times before approval.
66. The rocket's trajectory was affected by the propellant burn rate.
67. The propellant formulation needed to be precise for safety.
68. They celebrated the successful launch powered by the new propellant.
69. The propellant was designed to minimize environmental impact.
70. The crew monitored the propellant levels throughout the flight.
71. The propellant system was upgraded for the next mission.
72. The engineers faced challenges with the new propellant design.
73. The propellant burned cleanly, producing less smoke.
74. They used a hybrid propellant for better performance.
75. The propellant was critical for achieving escape velocity.
76. The research focused on alternative propellant sources.
77. The propellant was injected in precise intervals to maintain stability.
78. They analyzed the propellant data after the launch.
79. The propellant was transported under strict regulations.
80. The performance of the propellant exceeded their expectations.
81. The propellant system was the most advanced ever created.
82. The propellant was ignited remotely for safety.
83. Each rocket had a unique propellant configuration.
84. The propellant was thoroughly inspected before use.
85. The development of the new propellant took years of research.
86. The propellant was a key factor in the rocket's success.
87. The failure of the propellant could jeopardize the entire mission.
88. The propellant was designed to be both powerful and efficient.
89. The team collaborated on the next generation of propellant technology.
90. The propellant produced a loud roar as it ignited.
91. They were excited to test the new propellant in real conditions.
92. The propellant system was the topic of many engineering papers.
93. The team worked tirelessly to refine their propellant formula.
94. The propellant was responsible for the rocket's incredible speed.
95. The launch was a success, thanks to the innovative propellant.
96. They discovered a flaw in the propellant design during testing.
97. The propellant was critical for maneuvering in space.
98. The new propellant could be a game changer for future missions.
99. The propellant burn lasted for several minutes during the ascent.
100. The propellant choice dramatically influenced the rocket's performance.