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Usage Examples
Filter by Meaning The retrorocket fired, bringing the spacecraft to a gentle landing.
The pilot activated the retrorocket to slow down the airplane during its descent.
The engineer inspected the retrorocket system for any potential issues.
The spacecraft's retrorocket fired, propelling it away from the space debris.
The experimental vehicle employed retrorocket engines to achieve a controlled backward motion.
The astronaut activated the retrorocket to counter the forward momentum and bring the spacecraft to a halt.
The spacecraft's retrorocket system was crucial for achieving a safe and accurate landing on the moon's surface.
The retrorocket fired, slowing down the spacecraft's descent towards the moon.
The engineers designed the retrorocket system to provide precise landing capabilities for the spacecraft.
The pilot activated the retrorocket to initiate the landing sequence of the interplanetary shuttle.
The retrorocket fired, slowing down the spacecraft as it prepared for landing.
The astronauts relied on the retrorocket to initiate reentry into the Earth's atmosphere.
The aircraft's retrorocket malfunctioned, making it difficult to land safely.
The retrorocket fired, slowing down the spacecraft for reentry.
The retrorocket on the spacecraft fired to slow down its descent.
The submarine used its retrorocket to adjust its depth underwater.
The retrorocket on the lunar lander fired, ensuring a soft touchdown on the moon's surface.
The astronaut relied on the retrorocket to stabilize the spacecraft's trajectory during reentry.
The retrorocket fired, slowing down the spacecraft as it prepared to enter the Earth's atmosphere.
The aircraft utilized retrorocket technology to safely land on the aircraft carrier.
The futuristic car featured retrorocket boosters for quick braking during emergency situations.
The retrofitted submarine was equipped with retrorocket propulsion for improved maneuverability.
The astronaut relied on the retrorocket system to control the spacecraft's descent.
The deep-sea exploration vehicle relied on retrorocket propulsion to descend to the ocean floor and ascend back to the surface.
The swimmer executed a retrorocket kick to propel themselves backward in the water.
The retrofitted car featured retrorocket technology, enabling it to reverse with precision.
The military vehicle had a retrorocket capability that enabled it to quickly retreat from dangerous situations.
The submarine's retrorocket propulsion system allowed it to move backward underwater.
The Mars rover's retrorocket malfunctioned during its descent, causing a rough landing.
The unmanned spacecraft deployed its retrorocket to adjust its orbit and avoid colliding with space debris.
The crew activated the retrorocket to slow down the satellite before entering its designated orbit.
The retrorocket fired, slowing down the spacecraft as it prepared for reentry.
The astronauts relied on the retrorocket system to decelerate during their return to Earth.
The spaceship's retrorocket fired in short bursts, gradually slowing its velocity for orbital insertion.
The car's emergency braking system engaged retrorocket, preventing a collision.
The robotic rover used its retrorocket engines to slow down and land softly on the surface of Mars.
The engineers conducted tests on the retrorocket to ensure its proper functioning before the mission.
The retrorocket propulsion system allowed the capsule to safely return to Earth from orbit.
As the meteoroid approached Earth, scientists planned to retrorocket it off course to prevent a potential collision.
The astronaut relied on the retrorocket to control the speed of the spacecraft during orbital maneuvers.
The spacecraft's retrorocket system malfunctioned, causing difficulties during the descent phase.
The retrorocket on the spacecraft ignited, slowing its descent towards the Earth.
The spaceship's retrorocket engaged, bringing it to a gentle stop on the landing pad.
The pilot activated the retrorocket to bring the plane to a halt on the runway.
The rocket adjusted its trajectory retrorocket, aiming for a precise landing zone.
The futuristic hoverboard decelerated retrorocket, allowing the rider to smoothly come to a stop.
The aircraft deployed its retrorocket system to safely land on the short runway.
The mission's success hinged on the precise timing of the retrorocket ignition.
The submarine deployed its retrorocket system to move in a backward motion.
The pilot activated the retrorocket to decelerate the capsule during descent.
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