Orbit example sentences

"Orbit" Example Sentences

1. The spacecraft entered an orbit around Mars.
2. The moon orbits Earth in about 28 days.
3. The space station orbits Earth at an altitude of around 250 miles.
4. The planets follow elliptical orbits around the Sun.
5. Earth orbits the Sun once every 365.25 days.
6. Artificial satellites are placed into orbits around Earth.
7. The International Space Station is in low Earth orbit.
8. Earth's gravity keeps the moon in orbit around our planet.
9. The satellite left low Earth orbit and entered a geosynchronous orbit.
10. The comet swung into an eccentric orbit around the Sun.
11. The solar system is made up of multiple planets orbiting the Sun.
12. Earth's oxygen layer is what allows satellites to stay in stable orbits for so long.
13. The orbits of the outer planets are much more spread out than the inner planets.
14. The rocket boosters fell back to Earth after reaching orbit.
15. The spaceprobes traveled into orbits that allowed them to study the outer planets.
16. The astronaut observed the Earth from low orbit.
17. Earth's gravity is just strong enough to keep the Moon in a stable orbit.
18. The equatorial orbits pass over the equator.
19. Our ability to send objects into orbits around Earth revolutionized technology.
20. The space shuttle orbited the planet multiple times during each mission.
21. The orbits of the solar system's planets remain remarkably stable.
22. Weather and communication satellites circle Earth in geosynchronous orbits.
23. The space station completes one orbit every 90 minutes.
24. Satellites in geostationary orbits hover over the same spot above Earth.
25. The basic elements that orbit the Sun remain relatively unchanged.
26. The natural and artificial objects in Earth's orbit pose risks to future space missions.
27. The rocket achieved a geosynchronous orbit 22,000 miles above Earth's surface.
28. The rocket launch put the satellite into a low Earth orbit.
29. The spaceship nearly fell out of orbit due to a malfunctioning engine.
30. The spacecraft followed an elliptical orbit around the planet.
31. The object's orbit was highly eccentric, carrying it far away from and back toward the Sun.
32. The satellite exited Earth's orbit and was sent hurtling into deep space.
33. The probe entered Mars' orbit to study the planet up close.
34. The orbit of the planet was decaying due to tidal effects with its nearby star.
35. The space probe left Earth's orbit and flew by several asteroids in the asteroid belt.
36. The space debris in low Earth orbit poses a threat to functioning satellites.
37. Many objects in Earth's orbit eventually burn up or decay and reenter the atmosphere.
38. The rocket launch put the tiny cubesat into low Earth orbit for testing radio communications.
39. The orbiting observatory provided breathtaking views of Earth from its vantage point above the atmosphere.
40. The newly launched satellite experienced problems achieving a stable orbit.
41. The debris will eventually leave orbit and burn up in Earth's atmosphere.
42. The gravitational pull between the two moons kept them locked in their stable orbits.
43. The rocket's ascent stage fell back to Earth after putting the payload into orbit.
44. Comets follow long elliptical orbits around the Sun.
45. The crewmembers experienced weightlessness after the rocket delivered them to low Earth orbit.
46. The spacecraft was sent into an orbit around Jupiter.
47. The orbits of the two satellites risked intersecting and causing a collision.
48. The aurora lights are most visible from Earth orbit.
49. Over 99% of all NASA human spaceflights have occurred within low Earth orbit.
50. Communication satellites orbit thousands of miles above the Earth's surface.
51. The probe started in a highly elliptical orbit around the planet.
52. The space junk in Earth orbit has increased the risk of collisions between functioning satellites.
53. The rocket's upper stage delivered its payload into the intended orbit.
54. Weather satellites remain in Earth's orbit, constantly monitoring conditions on the planet.
55. Most of the exoplanets identified so far orbit close to their stars.
56. The rocket achieved the targeted orbital altitude of 500 kilometers.
57. The irregularly shaped asteroid follows an eccentric orbit around the Sun.
58. The comet will return to the inner solar system in about 80 years following its highly elliptical orbit.
59. The planet's four moons stabilize its wobbling orbit around the Sun.
60. The space junk left over from 60 years of space activity remains in low Earth orbit.

Common Phases

1. The planet orbits the sun in 365 days.
2. The moon orbits Earth once every 28 days.
3. Voyager 1 has been orbiting the outer solar system for over 40 years.
4. The International Space Station orbits Earth at speeds up to 17,500 miles per hour.
5. The object went into an unstable orbit and crashed into the planet.
6. The astronaut floated in orbit for 6 months during the space mission.
7. The craft successfully achieved orbit and the mission continued as planned.
8. After launch, the rocket put the satellite into the proper orbit.
9. The earth's gravity keeps the moon in orbit around our planet.
10. The planets in the solar system all orbit the sun from various distances.
11. The electron orbits the atomic nucleus.
12. The satellite's orbit began to degrade and it eventually fell from the sky.
13. The National Oceanic and Atmospheric Administration monitors satellites in orbit.
14. The gravitational pull of the planets keeps all bodies in an orbital dance.
15. The space station is kept in orbit by careful thrusts from attached rocket engines.
16. The satellite required a boost to maintain its proper orbit around the Earth.
17. A satellite in geosynchronous orbit remains over the same point on Earth at all times.
18. The comet's odd orbit takes it far outside our solar system at times.
19. The probe went into orbit around the ringed planet to study its moons.
20. The orbits of comets are very elongated and often take thousands of years.
21. The new moon barely reflects any sunlight as it orbits the Earth in darkness.
22. The shuttle made several orbits around the Earth before landing back at the runway.
23. The planet's rotation and orbit keeps one side permanently dark while the other faces the sun.
24. The planets have stable elliptical orbits around the sun based on gravity.
25. Electrons orbit the nucleus in shells at specific energy levels.
26. The planet traveled in an eccentric orbit, coming quite close to the sun at perihelion.
27. The moon's gravity causes Earth's oceans to bulge as they orbit the planet.
28. Helium atoms have two electrons orbiting the nucleus.
29. The astronauts enjoyed the breathtaking views of Earth from their orbital vantage point.
30. The spacecraft departed from its initial orbit to visit other planets in the solar system.
31. The particles orbited the magnetic field lines like beads on a string.
32. The satellite went into an improper orbit and missed its intended target.
33. The errant rocket failed to achieve the required orbit and crashed into the ocean.
34. The spacecraft slowed itself to be captured by the planet's gravity into orbit.
35. The electrons in an atom orbit in well defined shells or energy levels.
36. The orbit of the asteroid was altered so that it posed no threat of hitting Earth.
37. The decaying orbit of the Russian space station signaled its imminent crash landing.
38. The trajectories of orbiting satellites are carefully calculated and monitored.
39. The moon's gravity helps stabilize the Earth's axial tilt and orbit.
40. The planet's axial tilt and orbit cause variations in seasons and climate.
41. The distant planet's eccentric orbit causes extremes in surface temperatures.
42. Planetary orbits have various degrees of eccentricity and inclination.
43. Comets have the most eccentric and elongated orbits of all celestial bodies.
44. The comet is now returning toward the inner solar system after a long orbital journey.
45. The shuttle performed a de-orbit burn that brought it out of orbit and into the atmosphere.
46. The test confirmed that the electronics could withstand the radiation of low Earth orbit.
47. The orbits of the rocky planets are nearly circular while gas giants have more elliptical paths.
48. The electrons orbit the nucleus in specific energy levels within the atom.
49. The probe successfully entered Mars' orbit and began gathering scientific data.
50. The planet's axial tilt and eccentric orbit cause seasonal variations in temperatures.
51. The star's strong gravitational field caused the comet to change its orbital trajectory.
52. The final mission objective was to place the payload into the proper Earth orbit.
53. The space probe left Earth's orbit to journey into interstellar space.
54. The Hubble Space Telescope continues to orbit Earth and capture stunning images.
55. The planet's orbital resonance affects the orbits of other bodies within the system.
56. The moon's orbit stabilized long ago, resulting in tidal locking with Earth.
57. The probe was powered down after completing its mission in lunar orbit.
58. The shuttle reentered Earth's atmosphere and glided to a landing after 25 orbits.
59. Electrons occupy various probability clouds as they orbit the nucleus.
60. A new space junk orbited Earth for a few years before finally burning up in the atmosphere.