Orbit in a sentence

(1) Satellites orbit in space.

(2) Satellites orbit the Earth.

(3) The planets orbit in space.

(4) The moon's orbit is elliptic.

(5) Hyperion's orbit is irregular.

(6) The rocket will fly into orbit.

(7) The rocket ascended into orbit.

(8) Satellites orbit Earth in space.

(9) The rocket goes fast into orbit.

(10) The shuttle can orbit the Earth.

Orbit sentence

(11) The planets orbit around the sun.

(12) The orbit of the Earth is tilted.

(13) Space is where the planets orbit.

(14) All planets orbit around the sun.

(15) The satellite was stable in orbit.

(16) The comet has an elliptical orbit.

(17) The asteroid is in a stable orbit.

(18) The orbit of the moon is changing.

(19) The orbit of the moon is measured.

(20) The orbit of the moon is explored.

Orbit make sentence

(21) The orbit of the planet is mapped.

(22) Io's orbit is slightly elliptical.

(23) The satellite was adrift in orbit.

(24) The planets orbit in the firmament.

(25) The astronaut is floating in orbit.

(26) The orbit of the comet is observed.

(27) The rocket orbits in a polar orbit.

(28) The rocket blasted aloft into orbit.

(29) The aerosat was launched into orbit.

(30) Satellites orbit in the aerospheres.

Sentence of orbit

(31) The sac beyond the eye is the orbit.

(32) The moon was steadfast in its orbit.

(33) The orbit of the planet is circular.

(34) The satellite's orbit is elliptical.

(35) The planets orbit the sun clockwise.

(36) The moon orbits in a prograde orbit.

(37) The spaceship will launch into orbit.

(38) The orbit of the asteroid is studied.

(39) The orbit of the comet is researched.

(40) The satellite will launch into orbit.

Orbit meaningful sentence

(41) The astronaut will launch into orbit.

(42) The planet was spinning in its orbit.

(43) The rocket orbits in low Earth orbit.

(44) The planets orbit the sun in a circle.

(45) The space shuttle launched into orbit.

(46) The orbit of the planet is calculated.

(47) The orbit of the asteroid is analyzed.

(48) The satellite orbits in a polar orbit.

(49) The asteroid orbits in a Trojan orbit.

(50) The planet's orbit is annularly shaped.

Orbit sentence examples

(51) Electrons orbit the nucleus of an atom.

(52) The orbit of the asteroid is irregular.

(53) The orbit of the planet is predictable.

(54) The orbit of the spaceship is adjusted.

(55) The rocket apexed before entering orbit.

(56) The orbit of the moon affects the tides.

(57) The orbit of the comet is unpredictable.

(58) The orbit of the satellite is monitored.

(59) The orbit of the satellite is corrected.

(60) The toy spaceship was spinning in orbit.

Sentence with orbit

(61) The comet is far from the earth's orbit.

(62) Satellites orbit in the upper atmosphere.

(63) The cometary orbit was highly elliptical.

(64) The orbit of the spaceship is controlled.

(65) The firmament is where the planets orbit.

(66) The twin planets orbit around each other.

(67) Astronomers track the orbit of asteroids.

(68) The rocket shoot up into the moon's orbit.

(69) The Earth revolves in an elliptical orbit.

(70) The orbit of Mercury is highly elliptical.

Use orbit in a sentence

(71) The space station is in a low Earth orbit.

(72) The planet's orbit is affected by gravity.

(73) The moon in the sky is in perpetual orbit.

(74) The earth takes 365 days to orbit the sun.

(75) The space shuttle was launched into orbit.

(76) The dwarf planet orbits in a tilted orbit.

(77) The planets orbit through the solar system.

(78) The satellite's orbit is highly elliptical.

(79) The planets rotate to orbit around the sun.

(80) The planetoid's orbit is highly elliptical.

Sentence using orbit

(81) The sac behind the eye is called the orbit.

(82) The spaceship is in orbit around the Earth.

(83) The orbit of the satellite is synchronized.

(84) The circle of planets orbit around the sun.

(85) The planetoid orbits in a retrograde orbit.

(86) The spaceship will orbit through the galaxy.

(87) The planets orbit in a circle round the sun.

(88) The spacecraft is orbiting in a polar orbit.

(89) The comet's orbit takes it close to the sun.

(90) The moon's orbit affects the tides on Earth.

Orbit example sentence

(91) The rocket's ascent into orbit was powerful.

(92) The moon appears spherical around its orbit.

(93) The planets orbit circularly around the sun.

(94) The moon is known to orbit around the Earth.

(95) The two planets had an irreconcilable orbit.

(96) The moon's orbit is inclined to the ecliptic.

(97) The planets orbit in a circle around the sun.

(98) The satellite passes over in the polar orbit.

(99) The astronaut will ascend rapidly into orbit.

(100) The Earth's orbit around the sun is elliptic.

Sentence with word orbit

(101) The astronaut built a space station in orbit.

(102) Io's orbit around Jupiter is very elliptical.

(103) The Earth's orbit takes one year to complete.

(104) Apparently, the planets orbit around the sun.

(105) The Earth's orbit around the sun is circular.

(106) The comet orbits in a highly eccentric orbit.

(107) The spacecraft began to chamber up into orbit.

(108) Laika was the first animal to orbit the Earth.

(109) The moon's orbit around the Earth is elliptic.

(110) Electrons orbit around the nucleus of an atom.

Sentence of orbit

(111) The satellite orbits in a geostationary orbit.

(112) The spacecraft orbits in a heliocentric orbit.

(113) The satellite will orbit through a polar orbit.

(114) Asteroids are rocky objects that orbit the sun.

(115) The satellite is orbiting in a low Earth orbit.

(116) The rocket began to chamber forward into orbit.

(117) The chamber around the eye is called the orbit.

(118) The Earth's orbit around the sun is elliptical.

(119) The shape of a comet's orbit can be elliptical.

(120) The lunar day is influenced by the moon's orbit.

Orbit used in a sentence

(121) Satellites orbit through the Earth's atmosphere.

(122) The spacecraft will orbit through the exosphere.

(123) The satellite revolved in a geostationary orbit.

(124) The satellite revolves in a geostationary orbit.

(125) The comet's orbit was calculated by astronomers.

(126) The rocket hurled the satellite along its orbit.

(127) The airth's orbit around the sun takes 365 days.

(128) The rocket reached mach 3 before entering orbit.

(129) The astronomer calculated the orbit of the moon.

(130) The rocket used force to orbit around the Earth.

Orbit sentence in English

(131) The moon has an elliptic orbit around the Earth.

(132) The moon's orbit around the Earth is elliptical.

(133) The shape of a planet's orbit can be elliptical.

(134) The space shuttle needs fuel to reach the orbit.

(135) The satellite was launched into orbit last week.

(136) The two satellites orbit parallel to each other.

(137) The satellite will orbit through a Molniya orbit.

(138) The moon orbited the gas giant in a tilted orbit.

(139) The space probe successfully launched into orbit.

(140) The aerosats are deployed in geostationary orbit.

(141) The spaceship accelerated over the Earth's orbit.

(142) Dione's orbit around Saturn takes about 2.7 days.

(143) The shape of a satellite's orbit can be elliptic.

(144) The planet was assailable because it had a orbit.

(145) The diameter of a satellite can affect its orbit.

(146) Io's orbit around Jupiter is slightly elliptical.

(147) The earth keeps spinning around the sun in orbit.

(148) The space probe will orbit through the Oort Cloud.

(149) The satellite orbited the planet in a polar orbit.

(150) The rocket will blast into orbit around the Earth.

(151) The satellite was hovering in geostationary orbit.

(152) The satellite is orbiting in a medium Earth orbit.

(153) The satellite will rotate down into a lower orbit.

(154) Glaciation can cause changes in the Earth's orbit.

(155) The planets orbit counterclockwise around the sun.

(156) The earth rotates around the sun in a round orbit.

(157) The exosphere is where satellites orbit the Earth.

(158) The space probe will orbit through the Kuiper Belt.

(159) The spacecraft will orbit through the thermosphere.

(160) The Galilean moons orbit around the planet Jupiter.

(161) The satellite is orbiting in a geostationary orbit.

(162) The rocket's powerful engines propel it into orbit.

(163) The asteroid's orbit intersects with that of Earth.

(164) The earth revolves around the sun in a round orbit.

(165) The Earth's axis causes it to revolve on its orbit.

(166) The biosatellite was launched into orbit last week.

(167) The satellite was axised to orbit around the earth.

(168) The planet reaches its aphelian point in its orbit.

(169) The aeonic force of gravity keeps planets in orbit.

(170) The atmosphere is where satellites orbit the Earth.

(171) The moon's orbit around the Earth is also elliptic.

(172) The moon's orbit takes about 27.3 days to complete.

(173) The position of a satellite can oscillate in orbit.

(174) The earth's orbit around the sun takes 365.25 days.

(175) The angular momentum of a planet affects its orbit.

(176) The spacecraft will orbit through the asteroid belt.

(177) The comet will orbit through the inner solar system.

(178) The space shuttle will orbit through the mesosphere.

(179) The rocket is on course to reach its intended orbit.

(180) Astroids are small rocky objects that orbit the sun.

(181) The megacycles of the satellite determine its orbit.

(182) The moon is steadfast in its orbit around the earth.

(183) The angle of the moon's orbit is at a 5-degree tilt.

(184) Io's orbit around Jupiter is not perfectly circular.

(185) The planet was spinning in its orbit around the sun.

(186) The elliptic orbit of the asteroid is unpredictable.

(187) The geosynchronous orbit is used for GPS satellites.

(188) The scientists successfully sent a rocket into orbit.

(189) The space shuttle will orbit through low Earth orbit.

(190) The space station will orbit through the Clarke Belt.

(191) The satellite will orbit through a synchronous orbit.

(192) John Glenn was the first American to orbit the Earth.

(193) The moon orbited the gas giant in a retrograde orbit.

(194) The thermosphere is where satellites orbit the Earth.

(195) The rocket will jet out of the atmosphere into orbit.

(196) The planets in our solar system orbit around the sun.

(197) The rocket launched with incredible speed into orbit.

(198) The satellite will cleave to the center of its orbit.

(199) The rocket's ascent into orbit was a historic moment.

(200) The spacecraft's orbit was changed using aerobraking.

(201) The satellite will rotate back into its proper orbit.

(202) The twostage rocket successfully launched into orbit.

(203) The lacrimal bone forms part of the orbit of the eye.

(204) The moon revolves through its orbit around the Earth.

(205) Orb after orb, the satellites orbit around the Earth.

(206) The astronomer circumscribed the orbit of the planet.

(207) The galaxy is where the planets orbit around the sun.

(208) The carrier rocket launched the satellite into orbit.

(209) The planet's orbit determines the length of its year.

(210) The exoplanet's orbit is irregular and unpredictable.

(211) The spacecraft will orbit through the Lagrange points.

(212) The satellite will orbit through a medium Earth orbit.

(213) The crewed spaceship successfully launched into orbit.

(214) The supersonic rocket launched a satellite into orbit.

(215) The spacecraft is orbiting in a sun-synchronous orbit.

(216) The rotation of Mercury is slow compared to its orbit.

(217) The moon revolves around the Earth in a regular orbit.

(218) The satellite will transmit the data across the orbit.

(219) The axis-of-rotation of a satellite affects its orbit.

(220) The apogean orbit of the asteroid is highly eccentric.

(221) The zygomatic bone forms part of the orbit of the eye.

(222) The satellites in orbit formed a fleet over the earth.

(223) The moon's orbit around Earth is not a perfect circle.

(224) The angular momentum of a satellite affects its orbit.

(225) The satellite will orbit through a geostationary orbit.

(226) The moon orbited the gas giant in a synchronized orbit.

(227) The moon orbited the planet in a nearly circular orbit.

(228) The space vehicle launched into orbit around the Earth.

(229) The satellite is set to launch to its designated orbit.

(230) The space station is orbiting in a near-circular orbit.

(231) The satellite is orbiting in a highly elliptical orbit.

(232) The satellite appeared to vacillate round in its orbit.

(233) The satellite will pass over in orbit every 90 minutes.

(234) The rocket's ascent into orbit was a major achievement.

(235) The rocket had to decrease velocity to enter the orbit.

(236) The moon's orbit around the Earth is what causes tides.

(237) The spacecraft will launch into orbit around the Earth.

(238) A circular orbit can be affected by gravitational pull.

(239) The astronomer made a precise calculation of the orbit.

(240) Gravitational pull from the sun keeps planets in orbit.

(241) The moon is a satellite in orbit, which is a pleonasm.

(242) The perihelion of Pluto is outside the orbit of Neptune.

(243) The satellite orbited the planet in a synchronous orbit.

(244) The satellite was placed in position to orbit the Earth.

(245) The Oort Cloud is located far beyond the orbit of Pluto.

(246) The astronomer observed the bicentric orbit of the moon.

(247) The orbit of the moon around the earth is anticlockwise.

(248) The rocky planet had a planetlike orbit around its star.

(249) Yuri Gagarin was the first cosmonaut to orbit the Earth.

(250) The planet will orbit onto a closer distance to the sun.

(251) The satellite's shape is aerodynamic to orbit the Earth.

(252) The firmament is where the planets orbit around the sun.

(253) The astronaut will release the space shuttle into orbit.

(254) The captain of the space shuttle launched it into orbit.

(255) The space agency will launch a new satellite into orbit.

(256) The Earth's orbit around the sun is elliptical in shape.

(257) The Russian space station Mir was in orbit for 15 years.

(258) The sun's gravitational pull keeps the planets in orbit.

(259) The moon's orbit around the Earth takes about 27.3 days.

(260) The rocket will fly out of the launchpad and into orbit.

(261) Gravitation is what keeps planets in orbit around stars.

(262) The moon's orbit around the earth is a cyclical movement.

(263) The satellite will orbit through a sun-synchronous orbit.

(264) The satellite will orbit through a highly inclined orbit.

(265) The gas jet in the space shuttle propelled it into orbit.

(266) The pentads of planets in the solar system orbit the sun.

(267) The satellite revolves around the Earth in a polar orbit.

(268) The moon's orbit is gradually moving away from the Earth.

(269) The space shuttle's propulsion allowed it to reach orbit.

(270) Dione's orbit around Saturn takes approximately 2.7 days.

(271) The lost satellite continued to orbit aimlessly in space.

(272) The planetoid's orbit brings it close to the Kuiper Belt.

(273) The rocket successfully deployed its payloads into orbit.

(274) Planetoids are small celestial bodies that orbit the Sun.

(275) The space craft was launched into orbit around the Earth.

(276) The apogean orbit of the spacecraft is highly elliptical.

(277) The spacecraft will enter orbit around Mars in two weeks.

(278) The impelling force of gravity kept the planets in orbit.

(279) The spacecraft will orbit onto the dark side of the moon.

(280) The planets in our solar system all orbit around the sun.

(281) The astronaut needs to locate the space station in orbit.

(282) The moon seems to be in perpetual orbit around the earth.

(283) The motion of the planets around the sun is called orbit.

(284) An elliptic orbit is a type of orbit with a curved shape.

(285) The atmosphere is affected by the Earth's tilt and orbit.

(286) The rocket was airborne, carrying a satellite into orbit.

(287) The earth's orbit around the sun takes about 365.25 days.

(288) The exoplanet's orbit is being monitored for any changes.

(289) The satellite orbited the planet in a geostationary orbit.

(290) Rockets are capable of carrying heavy payloads into orbit.

(291) The moon revolves in an orbit that is slightly elliptical.

(292) The comet is orbiting the sun in a highly eccentric orbit.

(293) The spacecraft is currently in a stable orbit around Mars.

(294) The apsis of a planet's orbit determines its eccentricity.

(295) The asteroid's orbit is relatively stable and predictable.

(296) The dominating force of gravity kept the planets in orbit.

(297) The orbiter's mission is to orbit around a celestial body.

(298) The seasons change in response to the Earth's orbit cycle.

(299) Earth's orbit around the sun takes approximately 365 days.

(300) The ecliptic is the plane of Earth's orbit around the Sun.

(301) The satellite was able to sustain above the earth's orbit.

(302) The axisymmetry of the planet's orbit made it predictable.

(303) The rocket blasted aloft, carrying a satellite into orbit.

(304) The planet appeared spherical despite its irregular orbit.

(305) The ellipticity of the moon's orbit causes tides on Earth.

(306) Moonlets are small, natural satellites that orbit planets.

(307) The trochlearis muscle is located in the orbit of the eye.

(308) The asteroid will orbit onto a collision course with Mars.

(309) The ballast in the satellite helped to maintain its orbit.

(310) The moon revolves in an elliptical orbit around the Earth.

(311) The planets in our solar system all orbit through the sun.

(312) The Hubble Space Telescope orbits through low Earth orbit.

(313) The force of the sun's gravity keeps the planets in orbit.

(314) The collision between the two planets created a new orbit.

(315) The collision of the two planets caused a change in orbit.

(316) The center of the solar system is where the planets orbit.

(317) The spaceship will fly away once it's launched into orbit.

(318) The geosynchronous orbit is highly stable and predictable.

(319) The earth satellite is positioned in a geostationary orbit.

(320) Astronauts will orbit through space to conduct experiments.

(321) The geosynchronous orbit is also known as the Clarke orbit.

(322) The satellite orbited the Earth in a sun-synchronous orbit.

(323) The astronaut used a space elevator to ascender into orbit.

(324) The ejes of a satellite allow it to orbit around the Earth.

(325) The satellites in orbit revolve in a turn around the Earth.

(326) The planetoid's orbit takes it beyond the orbit of Neptune.

(327) The planet hugged tightly to its orbit, following its path.

(328) The protoplanet was too small to clear its orbit of debris.

(329) Orbiters are spacecraft designed to orbit planets or moons.

(330) The planets are celestial bodies that orbit around the sun.

(331) The mascon affects the orbit of spacecraft around the moon.

(332) Thebe's orbit is influenced by the larger moons of Jupiter.

(333) The Hubble Space Telescope was launched into orbit in 1990.

(334) The asteroid will orbit onto a stable orbit around Jupiter.

(335) The movement of the planets around the sun is called orbit.

(336) An elliptical orbit can cause a planet to experience tides.

(337) Alpha centauri A and B are two stars that orbit each other.

(338) The setting of the space station was in a futuristic orbit.

(339) A circular orbit is the path a planet takes around the sun.

(340) The space shuttle was launched into orbit around the Earth.

(341) The astronomy club observed the circular orbit of the moon.

(342) The ethmoid bone is involved in the formation of the orbit.

(343) The forces of gravity keep planets in orbit around the sun.

(344) The spaceship launched into orbit with uniform acceleration.

(345) The astronauts will orbit through the Earth's magnetosphere.

(346) The moon orbited the gas giant in a highly elliptical orbit.

(347) The satellite orbited the planet in a highly inclined orbit.

(348) The geostationary orbit is a circular path around the Earth.

(349) The planets in our solar system orbit the sun in succession.

(350) The toric nature of the planet's orbit affected its climate.

(351) The satellite revolves around the Earth in a circular orbit.

(352) The apsis of a planet's orbit determines its orbital period.

(353) The superheated gases in the rocket propelled it into orbit.

(354) The elliptical orbit of the planet was carefully calculated.

(355) The elliptical orbit of the moon affects the tides on Earth.

(356) The gravities of satellites keep them in orbit around Earth.

(357) The asteroid's orbit is calculated precisely nearperihelion.

(358) The launch vehicle's engines shut down after reaching orbit.

(359) The satellite roves the Earth's orbit, transmitting signals.

(360) The artificial satellite was launched into orbit last night.

(361) The deflagrating rocket propelled the spacecraft into orbit.

(362) The cometary orbit was calculated using advanced technology.

(363) Halley's Comet has a highly elliptical orbit around the sun.

(364) JAXA's H-IIA rocket is used to launch satellites into orbit.

(365) The orbit around a black hole is known as the event horizon.

(366) Io completes one orbit around Jupiter every 1.77 Earth days.

(367) The rocket was airborne and launched a satellite into orbit.

(368) The elliptic shape of the Earth's orbit affects the seasons.

(369) The vertical position of the satellite determines its orbit.

(370) The angle of the moon's orbit around the earth is 5 degrees.

(371) The moon's orbit around Earth takes approximately 27.3 days.

(372) The mass of the sun is what keeps our solar system in orbit.

(373) The combustion of rocket fuel propels spacecraft into orbit.

(374) The analemma of a comet is influenced by its eccentric orbit.

(375) The astronauts will orbit through the Hubble Space Telescope.

(376) The geosynchronous orbit is a circular path around the Earth.

(377) The exosphere is where satellites and other spacecraft orbit.

(378) The elliptical orbit of the comet brings it close to the sun.

(379) The heat plasma was used to propel the spacecraft into orbit.

(380) The ophthalmic artery is located within the orbit of the eye.

(381) The axis of a satellite determines its orbit around a planet.

(382) The rocketeer's mission was to deploy a satellite into orbit.

(383) The satellite's circumgyration allowed it to orbit the Earth.

(384) The antipoles of a planet are the opposite side of its orbit.

(385) The perigean moon is the closest point to Earth in its orbit.

(386) The satellite was launched into orbit by a centripetal force.

(387) The positioners were used to position the satellite in orbit.

(388) The semimajor axis of the comet's orbit is highly elliptical.

(389) TNOs are small, icy bodies that orbit the sun beyond Neptune.

(390) Io's orbit causes it to experience tidal forces from Jupiter.

(391) The seasons change because of the Earth's rotation and orbit.

(392) The rocket was airborne and launching a satellite into orbit.

(393) The astronaut felt weightless as the spaceship spun in orbit.

(394) An elliptical orbit can cause a planet to experience seasons.

(395) The gang of planets in our solar system orbit around the sun.

(396) The elliptic orbit of the moon around the Earth causes tides.

(397) The lunar month is based on the moon's orbit around the Earth.

(398) The moon's orbit causes tides to revolve around coastal areas.

(399) The gravitational force of the sun keeps the planets in orbit.

(400) The apsis of a planet's orbit affects its climate and seasons.

(401) The rocket's boosters ignited to propel it forward into orbit.

(402) The perigee of the comet's orbit brought it closer to the sun.

(403) Astronomers can identify planets through their orbit and size.

(404) The axis of a satellite determines its orbit around the Earth.

(405) The planet circumvolves around the sun in an elliptical orbit.

(406) The satellite's servomechanism adjusted its position in orbit.

(407) The astronaut felt the spacecraft librate as it entered orbit.

(408) The astronaut will orbit onto the International Space Station.

(409) The Earth's orbit around the sun takes approximately 365 days.

(410) The sun's gravity has a force that keeps the planets in orbit.

(411) An elliptical orbit can cause a planet to experience eclipses.

(412) The circle of the earth's orbit around the sun takes one year.

(413) The elliptic shape of a planet's orbit can affect its climate.

(414) The earth's orbit around the sun takes approximately 365 days.

(415) The geosynchronous orbit is not possible at the Earth's poles.

(416) The reactivated space mission successfully launched into orbit.

(417) The space telescope will orbit through a high elliptical orbit.

(418) The spaceship spun out of orbit and headed towards the unknown.

(419) It's intriguing to observe as the planets orbit around the sun.

(420) The apsis of Earth's orbit is known as perihelion and aphelion.

(421) The rocket overshoots its intended orbit and drifts into space.

(422) The calendar year is based on the Earth's orbit around the sun.

(423) The satellite will orbit through space for the next five years.

(424) The spaceship is scheduled to land out of orbit in a few hours.

(425) Moonlets are small, natural satellites that orbit larger moons.

(426) The rocket blasted aloft, propelling the spacecraft into orbit.

(427) The probe successfully entered orbit around Jupiter last night.

(428) The probe will enter orbit around Neptune to explore its moons.

(429) The astronaut had to move the ballast about for a stable orbit.

(430) The space shuttle will take off from Texas and orbit the Earth.

(431) We need to get out of Saturn's orbit before we run out of fuel.

(432) The new satellite will go into operation once it reaches orbit.

(433) The ecliptics are a result of the Earth's orbit around the sun.

(434) The airburst of the rocket propelled the spacecraft into orbit.

(435) The satellite transited over the equator to maintain its orbit.

(436) The cislunar orbit is a popular destination for lunar missions.

(437) The Earth's moon rotates around the sun in an elliptical orbit.

(438) The string of planets in our solar system orbit around the sun.

(439) The collision between the two planets caused a change in orbit.

(440) The elliptic orbit of the moon around the earth is fascinating.

(441) The Russian space station, Mir, was in orbit from 1986 to 2001.

(442) The trajectory of the satellite was adjusted for optimal orbit.

(443) The ignition of the rocket propelled the spacecraft into orbit.

(444) The ecliptic plane is the plane of Earth's orbit around the sun.

(445) The solar calendar is based on the Earth's orbit around the sun.

(446) The spacecraft will orbit through the Van Allen radiation belts.

(447) The negative charge of the nucleus holds the electrons in orbit.

(448) The Earth's orbit causes the seasons to revolve around the year.

(449) Rocket science is essential for launching satellites into orbit.

(450) The centripetal force keeps the planets in orbit around the sun.

(451) The moon revolves around the Earth in a slightly inclined orbit.

(452) The satellite's orbit decayed over time due to atmospheric drag.

(453) The apsis of a black hole's orbit can cause gravitational waves.

(454) The apsis of a planet's orbit affects its distance from the Sun.

(455) The asteroid's orbit around the sun takes approximately 3 years.

(456) The rocket will ignite off and propel the spacecraft into orbit.

(457) The rocket cannoned into space, carrying a satellite into orbit.

(458) The perigee of the moon's orbit affects tidal patterns on Earth.

(459) The Earth does not revolve backward in its orbit around the Sun.

(460) The moon's orbit is inclined at about 5 degrees to the ecliptic.

(461) The apogean position of the satellite is in geostationary orbit.

(462) Hold on to Saturn's rings tightly as we orbit around the planet.

(463) The communications satellite was launched into orbit last night.

(464) The rocket flighted into space, carrying a satellite into orbit.

(465) The planet's orbit was calculated to be off by a few arcseconds.

(466) The satellite roves the Earth's orbit, transmitting information.

(467) The ethmoidal artery is located in the medial wall of the orbit.

(468) The Earth takes 365 days to revolve in its orbit around the sun.

(469) The Earth's orbit causes the seasons to rotate round in a cycle.

(470) An elliptic orbit is a type of orbit with a stretched out shape.

(471) The identification of the planet was made by its orbit and size.

(472) The elliptical shape of a planet's orbit can affect its climate.

(473) The moon's orbit is not a perfect circle, but rather an ellipse.

(474) The explosion of the rocket propelled the spacecraft into orbit.

(475) The moon's orbit around the Earth takes approximately 27.3 days.

(476) The satellite's orbit is synchronized with the Earth's rotation.

(477) The axis of the satellite determines its orbit around the Earth.

(478) The geosynchronous orbit is used for remote sensing and mapping.

(479) The gravitational forces between the planets keep them in orbit.

(480) The geosynchronous orbit is also known as a geostationary orbit.

(481) The spacecraft is currently in a prograde orbit around the Earth.

(482) The International Space Station orbits through the Earth's orbit.

(483) The ellipsoidal orbit of the moon around the Earth affects tides.

(484) The perihelion of a planet can affect the stability of its orbit.

(485) The planet's orbit is a continuous circumvolution around the sun.

(486) The geosynchronous orbit is ideal for observing weather patterns.

(487) The zodiacal system is based on the Earth's orbit around the sun.

(488) The apsis of a black hole's orbit can cause the emission of jets.

(489) The Earth's axis causes it to revolve in a turn around its orbit.

(490) The spaceport is responsible for launching satellites into orbit.

(491) The trochoid path of the satellite allowed it to orbit the Earth.

(492) The astronaut will orbit through the International Space Station.

(493) The Earth's orbit causes the seasons to revolve against the year.

(494) The rocketeers successfully launched their spacecraft into orbit.

(495) The satellite was slewing to maintain its orbit around the Earth.

(496) The astronomer was excited by the aberration in the star's orbit.

(497) The spacecraft will enter orbit around Saturn to study its rings.

(498) The orbit of a satellite can be adjusted by firing its thrusters.

(499) The moon's orbit through space is what causes the tides on Earth.

(500) The Earth's moon rotates around the Earth in a synchronous orbit.

(501) Black holes can cause stars to orbit around them in strange ways.

(502) The sun radiates a powerful force that keeps our planet in orbit.

(503) An elliptic orbit is the path that a planet takes around the sun.

(504) The solar system is constantly changing as planets orbit the sun.

(505) The tangential velocity of the planet caused it to orbit the sun.

(506) The sun's gravity keeps the planets in our solar system in orbit.

(507) The boundary of the solar system is marked by the orbit of Pluto.

(508) The earth's orbit around the sun takes approximately 365.25 days.

(509) The magnetic force of the sun is what keeps the planets in orbit.

(510) The fairing on the spacecraft was jettisoned after reaching orbit.

(511) The satellite maintained a steady orbit with uniform acceleration.

(512) The prograde burn of the rocket's engines propelled it into orbit.

(513) The astronauts will orbit through the International Space Station.

(514) The zygomatic process helps to form the lateral wall of the orbit.

(515) The carrier rocket successfully launched the satellite into orbit.

(516) The planets in our solar system orbit coordinately around the sun.

(517) The comet is currently nearperihelion in its orbit around the sun.

(518) The rocket reached a point of hurtle during its ascent into orbit.

(519) The planet's orbit appeared spherical despite its elliptical path.

(520) The spaceship thrust down from orbit to make a controlled landing.

(521) The spaceship will orbit through the galaxy, exploring new worlds.

(522) The satellite's trajectory was adjusted to orbit around the Earth.

(523) Time-zones are adjusted to account for the Earth's tilt and orbit.

(524) The satellite was able to sustain aloft in orbit around the earth.

(525) The biosatellites were launched into orbit to conduct experiments.

(526) The axis of a planet's orbit determines its distance from the sun.

(527) The biosatellite is expected to remain in orbit for several years.

(528) The satellite is scheduled to enter orbit around Earth next month.

(529) The satellite in orbit can revolve anticlockwise around the Earth.

(530) The spacecraft will blast into the atmosphere and orbit the Earth.

(531) The rocket fuel combusted and propelled the spacecraft into orbit.

(532) The periastron of a comet's orbit is the point closest to the sun.

(533) The rocket engine deflagrates to propel the spacecraft into orbit.

(534) The space shuttle will propel upwards into orbit around the Earth.

(535) The astronauts orbit a mile under the International Space Station.

(536) The planets in our solar system are permanent, they orbit the sun.

(537) The premium away from the sun is what causes the planets to orbit.

(538) Seven is the number of years it takes for Saturn to orbit the sun.

(539) The circular path of the moon around the Earth is called an orbit.

(540) The elliptic shape of the moon's orbit affects the tides on Earth.

(541) The angular velocity of a planet affects its orbit around the sun.

(542) The moon's orbit is not perfectly circular, but rather elliptical.

(543) The detonation of the rocket propelled the spacecraft into orbit.

(544) The geosynchronous satellite's orbit matches the Earth's rotation.

(545) The suns have a gravitational pull that keeps the planets in orbit.

(546) The astronauts will orbit through the space station for six months.

(547) The perigee of the moon is the point in its orbit closest to Earth.

(548) The geostationary orbit is located in the Earth's equatorial plane.

(549) The rocket will launch out into the atmosphere and orbit the Earth.

(550) The residence time of a satellite in orbit can impact its lifespan.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Orbit. They do not represent the opinions of TranslateEN.com.