100 Examples of sentences containing the common noun "orbit"

Definition

"Orbit" as a noun refers to the gravitational path that an object follows around another object in space. It can also mean the range or sphere of influence or activity of a particular entity.

1. Astronomical Definition: The curved path of a celestial object or spacecraft around a star, planet, or moon.
2. Figurative Definition: A sphere of activity, influence, or interest.

Synonyms

• Path
• Trajectory
• Circuit
• Course
• Revolution
• Sphere
• Range

Antonyms

• Divergence
• Departure
• Separation
• Disconnection

Examples

1. The Earth orbits the Sun in an elliptical path.
2. Satellites orbit the planet at various altitudes.
3. The moon orbits Earth approximately every 27.3 days.
4. The comet orbits the sun once every 76 years.
5. Satellites orbit in geostationary positions to maintain communication.
6. The planets orbit the sun due to gravitational pull.
7. Our understanding of how planets orbit has advanced significantly.
8. The spacecraft will orbit Mars for a year to collect data.
9. The stars orbit the center of the galaxy in complex paths.
10. A new satellite was launched to orbit the Earth for weather monitoring.
11. The binary star system consists of two stars that orbit each other.
12. Scientists study how objects orbit to predict their movements.
13. The ISS orbits the Earth at a speed of about 28,000 kilometers per hour.
14. The artificial satellite will orbit the planet for several years.
15. The gravitational forces influence how objects orbit each other.
16. The asteroid belt is composed of many rocks that orbit the sun.
17. It takes the moon approximately 27.3 days to orbit the Earth.
18. Some exoplanets are known to orbit their stars in habitable zones.
19. The new telescope will help us see how distant galaxies orbit.
20. During the mission, the spacecraft will orbit for extended periods.
21. The laws of physics dictate how objects orbit in space.
22. The satellite will orbit in a polar orbit for global coverage.
23. The study of orbits helps astronomers predict future positions.
24. The planet Mercury orbits the sun faster than any other planet.
25. A planet's tilt affects how it orbits in relation to the sun.
26. The spacecraft will orbit at a low altitude to gather detailed images.
27. Our galaxy's stars orbit in a spiral pattern around the center.
28. The dynamics of how planets orbit can reveal their formation history.
29. The spacecraft is designed to orbit the moon for exploration.
30. The orbits of comets can be highly elliptical and unpredictable.
31. The simulation showed how the planets would orbit under different conditions.
32. The satellites orbit Earth in various inclinations.
33. The gravitational pull of Jupiter affects how other bodies orbit.
34. The mission aims to study how asteroids orbit the sun.
35. The spacecraft will orbit for several months to collect samples.
36. The concept of orbit is fundamental in understanding celestial mechanics.
37. The moon's phases are related to how it orbits Earth.
38. The gravitational interactions can change how objects orbit over time.
39. The team used computer models to simulate how satellites orbit.
40. The center of our galaxy is where stars orbit a supermassive black hole.
41. The Mars rover was designed to orbit and analyze the planet's surface.
42. The dynamics of how moons orbit their planets are fascinating.
43. The telescope will observe how stars orbit around black holes.
44. The satellites orbit in sync to provide continuous coverage.
45. The gravitational influence of the sun keeps planets in their orbit.
46. The orbits of planets are influenced by their distances from the sun.
47. The spacecraft will orbit Venus to conduct atmospheric studies.
48. The star's motion shows how it orbits within its cluster.
49. The elliptical shape of an orbit can affect seasonal changes on a planet.
50. The satellite will orbit Earth for at least five years.
51. The moon's orbit is gradually moving away from Earth.
52. The research focused on how the rings orbit around Saturn.
53. The understanding of orbit mechanics is crucial for space missions.
54. The asteroid will eventually orbit in a more stable path.
55. The new findings changed how scientists view the orbit of Pluto.
56. The spacecraft is equipped to orbit at different altitudes.
57. The gravitational interactions can shift how objects orbit over time.
58. The patterns of how stars orbit can indicate their mass.
59. The satellite will orbit in a figure-eight pattern to collect data.
60. The moon's orbit can affect ocean tides on Earth.
61. The research aims to understand how galaxies orbit one another.
62. The comet's orbit takes it close to the sun every few years.
63. The satellite will orbit in a polar trajectory for mapping purposes.
64. The effectiveness of navigation systems relies on satellites that orbit.
65. The path of the spacecraft was calculated to orbit around Mars.
66. The planets orbit in a solar system that is billions of years old.
67. The gravitational effects dictate how moons orbit their planets.
68. The research team studied how debris can affect satellites that orbit.
69. The telescope captured images of stars that orbit in pairs.
70. The trajectory of the spacecraft was designed to orbit efficiently.
71. The study explored how tidal forces influence how moons orbit.
72. The satellite was deployed to orbit and monitor climate changes.
73. The design allows the satellite to orbit in a geostationary position.
74. The irregular orbit of the asteroid poses potential collision risks.
75. The project involves launching a satellite to orbit at high speed.
76. The gravitational pull of large bodies can alter how smaller objects orbit.
77. The planets and moons orbit in predictable patterns.
78. The spacecraft will orbit for several years before returning.
79. The research examines how objects orbit in different gravitational fields.
80. The satellite's orbit was adjusted to improve communication signals.
81. The study of orbits is essential for understanding celestial phenomena.
82. The spacecraft will orbit the planet to gather data and images.
83. The gravitational interactions can lead to changes in how objects orbit.
84. The telescope allows scientists to view how distant galaxies orbit.
85. The simulation showed how the moons orbit could be affected by nearby planets.
86. The satellite will orbit in a highly elliptical path.
87. The dynamics of how galaxies orbit provide insights into cosmic evolution.
88. The satellite's mission is to orbit and measure atmospheric conditions.
89. The observation of how comets orbit helps in understanding their behavior.
90. The spacecraft was launched to orbit and study the exosphere.
91. The orbits of exoplanets reveal valuable information about their stars.
92. The research focuses on how gravitational waves affect how objects orbit.
93. The satellite will orbit for a minimum of three years.
94. The gravitational forces shape how stars orbit within a galaxy.
95. The project aims to launch a probe to orbit and study the outer planets.
96. The orbits of small celestial bodies can change due to nearby larger objects.
97. The mission is designed to orbit and collect samples from asteroids.
98. The satellite's orbit provides critical data for weather forecasting.
99. The new findings indicate that some moons may not orbit in a stable manner.
100. The research team is investigating how planets orbit under different conditions.