Rotor in a sentence

(1) The word rotor is a palindrome.

(2) The helicopter had a tail rotor.

(3) The helicopter has a tail rotor.

(4) The centrifuge's rotor was replaced.

(5) The windmill off with a damaged rotor.

(6) The autogiro's rotor blades spun rapidly.

(7) The rotor is a component of a helicopter.

(8) The Blackhawk's rotor blades spun rapidly.

(9) The helicopter's rotor blades spin rapidly.

(10) The helicopter rotor rotates anticlockwise.

Rotor sentence

(11) The gas turbine rotor spins at high speeds.

(12) The motor can actuate by spinning the rotor.

(13) The model helicopter has a rotor that spins.

(14) The blad of the helicopter rotor spun rapidly.

(15) The rotor is a major component of a helicopter.

(16) The blades interlock across the rotor assembly.

(17) The helicopter's rotor is powered by the engine.

(18) The autogiro's rotor system is highly efficient.

(19) A helicopter's rotor helps it to stay in the air.

(20) She confidently mounted the shaft onto the rotor.

Rotor make sentence

(21) The helicopter's rotor blades spun anticlockwise.

(22) The helicopter's rotor torque through at the air.

(23) The rotor is a crucial component of a helicopter.

(24) The tail rotor is balanced to minimize vibrations.

(25) The gunship's rotor blades sliced through the air.

(26) The autogiro's rotor provides lift and propulsion.

(27) The helicopter can fly around on its rotor blades.

(28) The rotor is a key component part of a helicopter.

(29) The rotor is a critical component of a helicopter.

(30) The helicopter's rotor creates a distinctive sound.

Sentence of rotor

(31) The rotor of a helicopter can have multiple blades.

(32) The strong winds caused the rotor blade to vibrate.

(33) The rotor is a necessary component of a helicopter.

(34) The rotor of a car's engine helps to generate power.

(35) The helicopter's rotor provides lift and propulsion.

(36) The rotor of a fan helps to circulate air in a room.

(37) The helicopter flew through the plume of rotor wash.

(38) The helicopter's rotor blades turned anti-clockwise.

(39) The helicopter's rotor blade sheared off mid-flight.

(40) The copter's rotor blades created a deafening noise.

Rotor meaningful sentence

(41) The helicopter rotor whirred at hovering in the sky.

(42) The rotor is an essential component of a helicopter.

(43) The helicopter rotor blades rotate counterclockwise.

(44) The tail rotor is powered by the helicopter's engine.

(45) The rotor of a motor can be found inside the machine.

(46) The rotor of a helicopter can be replaced if damaged.

(47) The helicopter's tail rotor was damaged in the crash.

(48) The copter's rotor blades created a strong downdraft.

(49) The helicopter rotor subsists on top of the aircraft.

(50) The Blackhawk's tail rotor kept it stable in the air.

Rotor sentence examples

(51) The autogyro's rotor provides lift even at low speeds.

(52) The rotor of a generator helps to produce electricity.

(53) The chopper's tail rotor kept it stable during flight.

(54) The helicopter's rotor blades rotate counterclockwise.

(55) The wheel hub is connected to the brake rotor or drum.

(56) The helicopter's rotor wash plumed by dust and debris.

(57) The tail rotor is a crucial component of a helicopter.

(58) The centrifuge has a rotor that holds the sample tubes.

(59) The wind turbine's rotor is made up of multiple blades.

(60) The autogiro's rotor blades create a distinctive sound.

Sentence with rotor

(61) The autogiro's rotor generates lift even at low speeds.

(62) The rotor blade of the helicopter was spinning rapidly.

(63) The maintenance crew replaced the worn-out rotor blade.

(64) The helicopter flay through with rotor blades spinning.

(65) The rotor is a significant component of the helicopter.

(66) The tail rotor is typically smaller than the main rotor.

(67) The drone's propulsion was provided by its rotor blades.

(68) The wind turbine's rotor spins in a clockwise direction.

(69) The helicopter's rotor blades flay back as it takes off.

(70) The disk brake rotor was replaced due to excessive wear.

Use rotor in a sentence

(71) The vanes on the helicopter's rotor blades created lift.

(72) The tail rotor is located at the rear of the helicopter.

(73) The helicopter's rotor blades autorotate during descent.

(74) The copter's tail rotor provided stability during flight.

(75) The tail rotor is an essential component of a helicopter.

(76) A damaged tail rotor can cause instability during flight.

(77) The forebody of the helicopter housed the rotor assembly.

(78) The gyroplane's rotor blades spun rapidly as it took off.

(79) The gyroplane's rotor system provided lift and stability.

(80) The helicopter was a wreck after the rotor malfunctioned.

Sentence using rotor

(81) The gas turbine rotor is the rotating part of the engine.

(82) The pinion in the helicopter's rotor needs to be balanced.

(83) The helicopter's rotor blades started to spin out of sync.

(84) The chaff was blown away by the helicopter's rotor blades.

(85) The wind turbine's rotor turns with the force of the wind.

(86) The helicopter's rotor blades began to spin anticlockwise.

(87) The autogiro's rotor blades are made of durable materials.

(88) The helicopter's rotor blades started to flap into action.

(89) The helicopter's rotor blade sliced through the thick fog.

(90) The helicopter's rotor blade generated a strong downdraft.

Rotor example sentence

(91) The helicopter's rotor blade sliced down and over the sky.

(92) The helicopter's rotor blades whirr round as it takes off.

(93) The disc brake rotor was warped and needed to be replaced.

(94) The wind turbine's rotor is mounted on top of a tall tower.

(95) The generator misfire in connection with the damaged rotor.

(96) The helicopter's rotor blades were balanced gyroscopically.

(97) The copter's rotor blades created a rhythmic thumping sound.

(98) The tail rotor is controlled by the pilot using foot pedals.

(99) The helicopter's rotor blades create rotary motion for lift.

(100) The helicopter's rotor blades began to spin out into a blur.

Sentence with word rotor

(101) The helicopter's rotor blades spin rapidly to propel upward.

(102) The helicopter's rotor blades rotate along to generate lift.

(103) The helicopter's rotor blades began to skew through the air.

(104) The technician tightened the bolts securing the rotor blade.

(105) The disk brake rotor was warped and needed to be resurfaced.

(106) The helicopter's rotor blades circumrotate to generate lift.

(107) The tail rotor helps stabilize the helicopter during flight.

(108) The helicopter soared around with its rotor blades spinning.

(109) The remote control helicopter had a rotor that spun quickly.

(110) The tail rotor blades are adjustable to optimize performance.

Sentence of rotor

(111) The autogyro's rotor spins at a constant speed during flight.

(112) The helicopter's rotor blades slowly spin down after landing.

(113) The helicopter's rotor can be controlled to change direction.

(114) The helicopter rotor blades whirled as they spun in a circle.

(115) The helicopter's rotor blade created a loud noise as it spun.

(116) The maintenance crew greased the bearings of the rotor blade.

(117) The pilot carefully inspected the rotor blade before takeoff.

(118) I accidentally hit the curb and damaged the disk brake rotor.

(119) The helicopter rotor blades whirred in the hovering position.

(120) The helicopter's rotor blades made the air vibrate with force.

Rotor used in a sentence

(121) The tail rotor is usually located at the end of the tail boom.

(122) The tail rotor is designed to withstand high levels of stress.

(123) The tail rotor is an important safety feature of a helicopter.

(124) The mechanic had to mill out a damaged brake rotor on the car.

(125) The rotor of a helicopter can be tilted to control its flight.

(126) A damaged tail rotor can cause the helicopter to lose control.

(127) The centrifuge required calibration after a rotor replacement.

(128) The mechanic replaced the damaged rotor blade on the airplane.

(129) The angular velocity of a helicopter's rotor affects its lift.

(130) The tail rotor is designed to be easily replaceable if damaged.

Rotor sentence in English

(131) The wind turbine's rotor is designed to withstand strong winds.

(132) The car's brake failure was a result of a worn-out brake rotor.

(133) The blades of a helicopter revolve on a rotor to generate lift.

(134) The autogiro's rotor system is designed for maximum efficiency.

(135) The motorless helicopter hovered in the air using rotor blades.

(136) The helicopter's rotor blades caused the grass to billow aside.

(137) The autogyro's rotor provides stability and lift during flight.

(138) The tail rotor provides directional control for the helicopter.

(139) The rotor blade of the helicopter was damaged during the storm.

(140) The axis-of-rotation of a helicopter rotor determines its lift.

(141) The mechanic found tallow between the brake pads and the rotor.

(142) The helicopter's rotor could shear off if it hits a power line.

(143) The helicopter rotor blades whirred as it landed on the ground.

(144) The autogyro's rotor generates lift as it spins through the air.

(145) The stator coil is typically stationary while the rotor rotates.

(146) The rotor of a helicopter can be damaged if it hits an obstacle.

(147) The pilot adjusted the angle of the rotor blade for better lift.

(148) The helicopter's rotor blade was damaged during a rough landing.

(149) The helicopter's rotor blade produced a rhythmic thumping sound.

(150) The helicopter's rotor blade spun down and over the landing pad.

(151) The helicopter's rotor blades spun rapidly during autorotations.

(152) The synchronous generator is equipped with a rotor and a stator.

(153) The helicopter's rotor blades started to growl above the jungle.

(154) The brake rotor on the car was warped and needed to be replaced.

(155) The drone's rotor blade was responsible for keeping it airborne.

(156) The blades of a helicopter revolve under the power of the rotor.

(157) The tail rotor spins in the opposite direction to the main rotor.

(158) The autogyro's rotor is designed to be aerodynamically efficient.

(159) The helicopter's rotor blades created a vortex of air beneath it.

(160) The rotor of a boat's propeller helps to propel it through water.

(161) The hydraulic brake rotor needs to be checked for wear regularly.

(162) The helicopter's rotor blade spun faster as the engine revved up.

(163) The maintenance crew replaced the damaged tip of the rotor blade.

(164) The helicopter's rotor blades were able to sheer through the air.

(165) The pilot skillfully used the tail rotor to perform a tight turn.

(166) The helicopter's rotor malfunctioned and crashed into a building.

(167) The helicopter's rotor blades spun rapidly, propelling it upward.

(168) The autogyro's rotor is driven by the airflow passing through it.

(169) The tail rotor spins in the opposite direction of the main rotor.

(170) The tail rotor's blades are designed to generate lift and thrust.

(171) The helicopter's rotor wash plumed dust and debris to the ground.

(172) The autogyro's rotor provides stability and control during flight.

(173) The autogyro's rotor is tilted forward to generate forward motion.

(174) The rotor of a wind turbine converts wind energy into electricity.

(175) The helicopter will emit a loud rotor noise above the landing pad.

(176) The chopper's rotor blades created a gust of wind as it passed by.

(177) The helicopter's rotor blades began to spin out towards the crowd.

(178) The helicopter's rotor blade was made of lightweight carbon fiber.

(179) The gyroplane's rotor blades created a mesmerizing visual display.

(180) The main shaft of the helicopter drives the rotor blades for lift.

(181) The helicopter landed on the helipad, whooshing with rotor blades.

(182) The helicopter's rotor blades sliced through the air, blade apart.

(183) The autogyro's rotor is mounted on top of the aircraft's fuselage.

(184) The disk brake rotor is a crucial component for effective braking.

(185) The tail rotor's pitch control is crucial for precise maneuvering.

(186) The magnetic torque of the motor caused the rotor to spin rapidly.

(187) The rotor of a helicopter rotates along its axis to generate lift.

(188) The tail rotor is responsible for controlling the helicopter's yaw.

(189) The tail rotor is essential for maintaining stability during hover.

(190) The azimuth of a helicopter rotor determines the direction of lift.

(191) The hydraulic brake piston pushes the brake pads against the rotor.

(192) Autogyros have a unique flying sensation due to their rotor system.

(193) The mechanic repaired the gimbals on the helicopter's rotor system.

(194) The helicopter's rotor blades flaps out as it prepares for takeoff.

(195) The helicopter's rotor blade sliced through the air with precision.

(196) The helicopter's rotor blades began to spin off towards the ground.

(197) The magnetic torque produced by the motor caused the rotor to spin.

(198) Autogiros are rotary-wing aircraft that use unpowered rotor blades.

(199) Autogiros have a distinct appearance with their large rotor blades.

(200) The helicopter's rotor blades rotate at 500 revolutions per minute.

(201) The helicopter rotor blades whirred on as it lifted the helicopter.

(202) The helicopter's rotor blades created a beamlike motion in the air.

(203) The helicopter rotor spins counterclockwise to lift off the ground.

(204) The tail rotor is susceptible to damage from debris or bird strikes.

(205) The wind turbine's rotor is designed to capture maximum wind energy.

(206) The helicopter's rotor blades rotate anticlockwise to generate lift.

(207) The whirlybird's rotor blades sliced through the air with precision.

(208) Incubate on top of the centrifuge rotor to facilitate sedimentation.

(209) The tail rotor spins at a high speed to provide directional control.

(210) The autogyro's rotor provides a smooth and stable flight experience.

(211) The tail rotor's pitch can be changed to alter the helicopter's yaw.

(212) The helicopter rotor blades whirred to start lifting the helicopter.

(213) The axes-of-rotation of a helicopter's rotor blades allow it to fly.

(214) The helicopter's rotor swiveled out of control, causing it to crash.

(215) The wind turbine's rotor blade was designed to withstand high winds.

(216) The generator's engine burns the fuel to turn the generator's rotor.

(217) The helicopter's aerodynamic rotor blades allow it to fly and hover.

(218) The helicopter's rotor blades sliced through the air with precision.

(219) The distributor cap is connected to the rotor inside the distributor.

(220) The torque in the helicopter's rotor blades lifted it off the ground.

(221) The helicopter's rotor is essential for vertical takeoff and landing.

(222) The rotor in an electric car's motor is made up of permanent magnets.

(223) The helicopter rotor blades started to spin off over the landing pad.

(224) The helicopter's rotor blade sliced through the thick jungle foliage.

(225) The counterbalance around the helicopter rotor ensured stable flight.

(226) The torque of the helicopter's rotor blades lifted it off the ground.

(227) The mechanic inspected the tail rotor for any signs of wear and tear.

(228) The tail rotor's failure can lead to a loss of control during flight.

(229) The helicopter's rotor blades flap down as it hovers above the ground.

(230) The tail rotor helps counteract the torque produced by the main rotor.

(231) The tail rotor requires regular maintenance to ensure proper function.

(232) The tail rotor is typically painted with bright colors for visibility.

(233) The autogyro's rotor provides stability even in gusty wind conditions.

(234) The autogyro's rotor is controlled by the pilot using a control stick.

(235) The autogyro's rotor is balanced to minimize vibrations during flight.

(236) The stator is stationary while the rotor rotates in an electric motor.

(237) The rotor of a helicopter is an integral part of its flight mechanism.

(238) The underwing of the helicopter had rotor blades for vertical takeoff.

(239) The helicopter's rotor blade was painted bright yellow for visibility.

(240) The disk brake rotor was machined to remove any surface imperfections.

(241) The generator's rotor rotation induced voltage in the stator windings.

(242) The salient pole rotor had a robust construction, ensuring durability.

(243) The tail rotor is responsible for controlling the yaw of the aircraft.

(244) The helicopter's tail rotor failed, causing it to spin out of control.

(245) The tail rotor's efficiency is crucial for safe helicopter operations.

(246) The cowling on the helicopter's rotor blades was made of carbon fiber.

(247) The synchronous machine requires a rotor and stator for its operation.

(248) The tail rotor's gearbox transfers power from the engine to the rotor.

(249) The engineer inspected the rotor blade for any signs of wear and tear.

(250) The sprag gear in the helicopter's rotor system needed to be replaced.

(251) The brake rotor was warped and caused the car to vibrate when braking.

(252) The helicopter's rotor blades slowed down as it landed on the helipad.

(253) The helicopter's rotor blades spun faster as it lifted off the ground.

(254) I was fascinated by the engineering behind the autogiros' rotor system.

(255) The autogyro's rotor can be folded for easy storage and transportation.

(256) The helicopter's rotor blades began to spin in preparation for landing.

(257) The rotor of a motorbike's engine helps to generate power for movement.

(258) The autogiro's rotor can be folded for easy storage and transportation.

(259) The wind turbine's blade could shear off of the rotor in a strong gust.

(260) The hydrostatically balanced rotor ensures smooth helicopter operation.

(261) The helicopter's rotor blades start to rotate forward into flight mode.

(262) The ac generator's rotor spins inside a stator to generate electricity.

(263) The brake drum is typically larger in size compared to the brake rotor.

(264) The helicopter's rotor blades rotated rapidly, allowing it to take off.

(265) The autogyro's rotor provides a unique and thrilling flying experience.

(266) The stator coil is typically larger in size compared to the rotor coil.

(267) The helicopter's rotor blades spun rapidly as it lifted off the ground.

(268) The helicopter rotor blades spin counterclockwise to lift the aircraft.

(269) The helicopter's rotor blades created a gyratory motion as it took off.

(270) The tail rotor is crucial for maintaining stability during autorotation.

(271) The tail rotor generates a significant amount of noise during operation.

(272) The salient pole is an integral part of the rotor assembly in the motor.

(273) The autogyro is a unique aircraft that uses an unpowered rotor for lift.

(274) The helicopter's rotor blades thrum along as it hovers above the ground.

(275) The pilot skillfully controlled the rotor blade during a rescue mission.

(276) The rotorcraft's rotor blades generated a strong downdraft during hover.

(277) The tach on the helicopter showed the rotations per minute of the rotor.

(278) The salient pole rotor had a large diameter, enabling high power output.

(279) The tail rotor's blades are smaller compared to the main rotor's blades.

(280) The tail rotor's blades are dynamically balanced to minimize vibrations.

(281) The helicopter's rotor blades spun faster as it shot up off the helipad.

(282) The helicopter's rotor blades propelled it upward headlong into the air.

(283) The wreath was blown away by the helicopter's rotor wash during takeoff.

(284) The helicopter's rotor blades swept off the debris from the landing pad.

(285) The helicopter rotor blades rotate anticlockwise to lift off the ground.

(286) The helicopter hovered over the landing pad with its wings on the rotor.

(287) The tail rotor is crucial for maneuvering the helicopter in tight spaces.

(288) The wind turbine's rotor spins at different speeds depending on the wind.

(289) The wind turbine's rotor is designed to capture wind from all directions.

(290) The choice of centrifuge rotor can affect the outcome of centrifugations.

(291) The helicopter's rotor blades rotated gyroscopically, allowing it to fly.

(292) The spiral spring in the toy helicopter powers its spinning rotor blades.

(293) The tail rotor's position can be adjusted to optimize flight performance.

(294) The helicopter's tail rotor was replaced after it was damaged in a storm.

(295) The tail rotor's position is adjusted during hover to maintain stability.

(296) The helicopter hovered above, its rotor blades rotating counterclockwise.

(297) The disk brake caliper is responsible for applying pressure to the rotor.

(298) The toy helicopter has a steerable rotor blade for stable flight control.

(299) The tail rotor's efficiency affects the helicopter's overall performance.

(300) The helicopter rotor blades spin counterclockwise to lift off the ground.

(301) The construction of a synchronous generator includes a rotor and a stator.

(302) The principal axis of a helicopter rotor controls the direction of flight.

(303) The centrifugence of the helicopter's rotor blades allowed it to take off.

(304) The blades of a helicopter revolve on a rotor to provide lift and control.

(305) The friction between the brake pads and the rotor generates heat in a car.

(306) In an asynchronous motor, the rotor and stator rotate at different speeds.

(307) The air blow from the helicopter's rotor blades created a deafening noise.

(308) The distributor cap is connected to the rotor, which spins inside the cap.

(309) The tail rotor's pitch control is operated by the pilot using foot pedals.

(310) The helicopter's rotor blades spin in a rotary motion, enabling it to fly.

(311) The helicopter held out its rotor up over the field and began to lift off.

(312) The pilot skillfully maneuvered the rotor blade to avoid hitting the tree.

(313) The helicopter has an aerodynamic rotor design to help it stay in the air.

(314) The helicopter's rotor malfunctioned, causing it to crash into the ground.

(315) I could hear the brake lining grinding against the rotor on my dad's truck.

(316) The helicopter's rotor blades rotate anti-clockwise to lift off the ground.

(317) The helicopter's rotor blades started to tilt anticlockwise during landing.

(318) The technician carefully inspected the rotor blade for any signs of damage.

(319) The rotorcraft's rotor blades created a distinct sound as it flew overhead.

(320) The turboshaft design allows for efficient power transmission to the rotor.

(321) The helicopter's rotor blades rotated down into a slower speed for landing.

(322) The magnetic torque applied to the magnetic rotor caused it to spin faster.

(323) The ac generator's frequency determines the speed at which the rotor spins.

(324) The stator coil is stationary while the rotor rotates in an electric motor.

(325) The tail rotor's design allows for precise control of the helicopter's yaw.

(326) The tail rotor's gearbox is lubricated with specialized aviation-grade oil.

(327) The autogyro's rotor is driven by the relative wind, rather than an engine.

(328) The autogyro's rotor is equipped with a pre-rotator to assist with takeoff.

(329) The air blow from the helicopter's rotor blades created a strong downdraft.

(330) The outer race of the helicopter rotor was inspected for any signs of wear.

(331) The tail rotor's responsiveness is critical for quick changes in direction.

(332) The helicopter's rotor blades spun rapidly as it took off from the airport.

(333) The helicopter's tail rotor helped to stabilize the aircraft during flight.

(334) The gyroplane's rotor blades are not powered by an engine, but by the wind.

(335) The helicopter's shaftless rotor system allows for greater maneuverability.

(336) The autogyro's rotor is designed to be easily replaceable in case of damage.

(337) The wind turbine's rotor is connected to a generator to produce electricity.

(338) The cog was precisely aligned around the rotor to generate electrical power.

(339) The flare around the helicopter's rotor blades created a mesmerizing effect.

(340) The helicopter's rotor blades slowed down as it touched down on the helipad.

(341) The pilot skillfully maneuvered the rotor blade to land on a small platform.

(342) The helicopter's rotor blade created a whirlwind of dust on the landing pad.

(343) The pilot adjusted the rotor blade's angle of attack for better performance.

(344) The induction motor's rotor movement induced voltage in the stator windings.

(345) The tail rotor's pitch can be adjusted to change the helicopter's direction.

(346) The point contact between the car's brake pads and the rotor slowed it down.

(347) The tail rotor's speed can be adjusted to control the helicopter's movement.

(348) The tail rotor's position can be adjusted to compensate for wind conditions.

(349) The angular-velocities of the rotor determine the stability of a helicopter.

(350) The helicopter's rotor stopped spinning, causing it to plummet from the sky.

(351) The pilot declutched the helicopter's rotor blades to slow down for landing.

(352) The tail rotor is an integral part of the helicopter's flight control system.

(353) The autogyro's rotor is made of lightweight materials to maximize efficiency.

(354) The helicopter's rotor malfunctioned and it came crashing down to the ground.

(355) The air stream from the helicopter's rotor blades created a strong downdraft.

(356) The technician carefully balanced the rotor blade to ensure smooth operation.

(357) The axis of rotation for a spinning helicopter rotor is the main rotor shaft.

(358) The helicopter's rotor blades swiveled in and out as it prepared for takeoff.

(359) The dry friction between the brake pads and the rotor slows down the bicycle.

(360) The salient pole rotor had a distinctive shape that enhanced its performance.

(361) The pilot adjusted the tail rotor to counteract the torque of the main rotor.

(362) The radio-controlled helicopter has a steerable tail rotor for stable flight.

(363) The tail rotor's position can be adjusted to optimize flight characteristics.

(364) The tail rotor's control inputs are provided by the pilot through the pedals.

(365) The tail rotor's noise can be reduced through advanced design and technology.

(366) The angular-velocity of the helicopter's rotor blades allowed it to take off.

(367) The axis of a helicopter's rotor determines its lift and direction of flight.

(368) The brake rotor is a part of the braking system that helps slow down the car.

(369) The college's engineering department designed a new type of helicopter rotor.

(370) The helicopter's rotor blades impinged down upon the ground, kicking up dust.

(371) The helicopter's rotor stopped spinning, causing it to plummet to the ground.

(372) The helicopter's rotor blade sliced through the air as it flew over the city.

(373) The helicopter pilot gently lowered the rotor blade down onto the landing pad.

(374) The efficiency of centrifuges depends on factors such as rotor size and speed.

(375) The tail rotor provides directional control during hover and low-speed flight.

(376) The helicopter's rotor blades allowed it to defy gravity and hover in mid-air.

(377) The critical speed of a helicopter rotor affects its ability to generate lift.

(378) The autogyro's rotor is an essential component for safe and controlled flight.

(379) The word rotor is a palindrome that is often used in the context of machinery.

(380) The friction between the brake pads and the rotor generates heat when braking.

(381) Autogyros are capable of flying in windy conditions due to their rotor design.

(382) The helicopter's rotor blades whirred loudly as it jetted up from the helipad.

(383) The helicopter's rotor blades started to revolve anticlockwise as it took off.

(384) The salient pole rotor had a high inertia, making it suitable for heavy loads.

(385) The tail rotor's blades are typically made of lightweight composite materials.

(386) The tail rotor's speed is regulated by the helicopter's flight control system.

(387) The helicopter whisked along with its rotor blades, hovering above the ground.

(388) The generator produced an induced voltage as the rotor spun within the stator.

(389) The induction motor's rotor rotation induced a voltage in the stator windings.

(390) The helicopter's rotor blades spun contraclockwise, lifting it off the ground.

(391) The helicopter's rotor blades caused the landscape below to spin out of focus.

(392) The helicopter's strakes were designed to reduce rotor noise and improve lift.

(393) The pilot skillfully maneuvered the rotor blade to land the helicopter safely.

(394) The helicopter's rotor blade spun rapidly as it took off from the landing pad.

(395) The torque in a helicopter's rotor affects its ability to lift off the ground.

(396) The helicopter's sudden landing made us hit the dirt to avoid the rotor blades.

(397) The tail rotor is typically made of lightweight materials such as carbon fiber.

(398) The torsion of a helicopter rotor blade is critical for its flight performance.

(399) The outer race of the car's brake rotor was inspected for any signs of warping.

(400) The helicopter's rotor blade sliced through the air as it moved across the sky.

(401) The centrifugal force of the spinning helicopter rotor blades kept it airborne.

(402) The whirlybird's tail rotor counteracted the torque produced by the main rotor.

(403) The frictional force between the brake pads and the rotor slows down a bicycle.

(404) The propulsive force of the helicopter's rotor blades lifted it off the ground.

(405) The salient pole rotor had a high pole pitch, resulting in improved efficiency.

(406) The helicopter's rotor blades create a rotary motion to lift it off the ground.

(407) The toy helicopter has a steerable tail rotor for precise hovering and turning.

(408) The autogyro's rotor is tilted forward to provide forward thrust during flight.

(409) The tail rotor's failure can lead to a loss of control and potential accidents.

(410) During autorotations, the helicopter's rotor blades are allowed to spin freely.

(411) The gyroplane's rotor blades can be folded for easy storage and transportation.

(412) The gears in a helicopter help control the pitch and speed of the rotor blades.

(413) The principle of autorotation is based on the rotation of the main rotor blades.

(414) The slewing movement of the helicopter's rotor allowed it to hover in one place.

(415) The helicopter's rotor blades caused the dust to eddy away from the landing pad.

(416) The spinning helicopter rotor blades gyrate beneath the skilled pilot's control.

(417) The helicopter's main rotor autorotates to maintain stability during power loss.

(418) The outer race of the generator's rotor was replaced to ensure smooth operation.

(419) The salient pole rotor had a unique shape that enhanced its magnetic properties.

(420) The tail rotor's gearbox needs regular maintenance to ensure proper functioning.

(421) The mechanic tamped down the brake pads to ensure proper contact with the rotor.

(422) The windmill's rotor rotates with ease, converting wind energy into electricity.

(423) The tail rotor's speed is synchronized with the main rotor for smooth operation.

(424) The mechanic replaced the old rotor blade with a new one to improve performance.

(425) The helicopter's rotor blade sliced through the air with a loud whooshing sound.

(426) The helicopter's rotor blades began to pinion about as it lifted off the ground.

(427) The co-axial rotor system in helicopters provides greater stability and control.

(428) The technician used a vibrometer to check the balance of the rotor in the motor.

(429) The caliper below the brake rotor is used to measure the thickness of the rotor.

(430) The efficiency of centrifuges can be enhanced by using specialized rotor designs.

(431) The counterpoise of the helicopter's rotor blades allowed it to hover in mid-air.

(432) The tail rotor is a testament to the skill and expertise of helicopter engineers.

(433) The autogyro's rotor is connected to the aircraft's engine through a drive shaft.

(434) The wind turbine's rotor needs regular maintenance to ensure optimal performance.

(435) The centrifugence of the helicopter's rotor blades created a strong gust of wind.

(436) The technician conducted a thorough inspection of the rotor blade's leading edge.

(437) The tail rotor is an essential component of a helicopter's flight control system.

(438) The tail rotor's function is to counteract the torque produced by the main rotor.

(439) The helicopter's rotor blades stopped spinning, and it autorotated to the ground.

(440) The ultracentrifuge is equipped with a rotor that can hold multiple sample tubes.

(441) The cyclist upgraded to a carbon fiber disk brake rotor for improved performance.

(442) The wind turbine generated electricity as the air blown against its rotor blades.

(443) The tail rotor's rotation creates a force that opposes the helicopter's rotation.

(444) The helicopter's rotor blades began to gyrate past us as it prepared for takeoff.

(445) The helicopter's rotor blades flashed up and over the landing pad as it took off.

(446) The tail rotor is an example of the ingenuity and innovation in helicopter design.

(447) The helicopter's rotor blade was designed to withstand extreme weather conditions.

(448) The pinion out from the windmill's rotor caused it to stop generating electricity.

(449) The magnetic torque produced by the magnetic brake slowed down the spinning rotor.

(450) The helicopter's rotor blades thrum against the sky, creating a powerful presence.

(451) The remote-controlled helicopter has a steerable rotor for precise flight control.

(452) The stator coil is carefully positioned to ensure proper alignment with the rotor.

(453) The tail rotor's failure can result in an uncontrollable spin known as a tailspin.

(454) The helicopter's rotor blades started to pinion around, lifting it off the ground.

(455) The sound of the helicopter made the air vibrate with respect to its rotor blades.

(456) The helicopter's rotor blades sliced through the air as it ascended over the city.

(457) The axis of a wind turbine is the line passing through its rotor's center of mass.

(458) The helicopter's rotor blades will rotate down into a folded position for storage.

(459) The plugboard was later replaced by the rotor system in newer encryption machines.

(460) The helicopter's rotor blades kicked up a cloud of dust as it landed in the field.

(461) The gear train in a helicopter transfers power from the engine to the rotor blades.

(462) The asynchronous motor operates by inducing a rotating magnetic field in the rotor.

(463) The helicopter's rotor blades spin faster and faster as it prepares to take flight.

(464) The success of centrifuging relies on the proper selection of rotor type and speed.

(465) The axes-of-rotation of a helicopter's rotor blades allow it to hover and maneuver.

(466) The propulsive thrust of the helicopter's rotor blades propelled it across the sky.

(467) The tail rotor's rotation direction can be reversed to change the helicopter's yaw.

(468) The helicopter's rotor blades rotate with ease, enabling smooth and stable flights.

(469) The powertrain of a helicopter includes the engine, transmission, and rotor system.

(470) The helicopter hovered above the building, its rotor blades spinning down and over.

(471) The helicopter's rotor blades stopped spinning, causing it to plummet from the sky.

(472) The autogyro's rotor is controlled by the pilot through the use of a control stick.

(473) The stator coil is carefully positioned to ensure optimal alignment with the rotor.

(474) The helicopter pilot carefully monitored the rotor's critical speed during takeoff.

(475) The helicopter's rotor blades spun rapidly, and the aircraft lifted off the ground.

(476) The aerofoil shape of a helicopter's rotor blades allows it to lift off the ground.

(477) The tail rotor is designed to provide precise control over the helicopter's heading.

(478) The contact area of a car's brake pads with the rotor affects the stopping distance.

(479) The construction of an asynchronous machine typically involves a stator and a rotor.

(480) Torsional stiffness is an important factor in the design of helicopter rotor blades.

(481) The helicopter's rotor blades spun anti-clockwise, creating a powerful gust of wind.

(482) The mechanic pushed the caliper towards to measure the thickness of the brake rotor.

(483) The specific energy of a wind turbine is influenced by the wind speed and rotor size.

(484) The cog was precisely aligned around the generator rotor to produce electrical power.

(485) The mechanic had to tamp down the brake pads to ensure proper contact with the rotor.

(486) The helicopter's rotor blade sliced through the air as it moved across the landscape.

(487) The mechanic used a caliper around to measure the thickness of the car's brake rotor.

(488) The incremental encoder is often used in wind turbines to monitor the rotor position.

(489) The tail rotor's blades are angled to generate lift and control the helicopter's yaw.

(490) The autogyro's rotor is an essential component for its unique flight characteristics.

(491) The tail rotor's efficiency is optimized through continuous research and development.

(492) The tilt angle of the helicopter's rotor blades controls its lift and forward motion.

(493) The centrifuge tubes were sterilized onto the rotor before being spun at high speeds.

(494) The helicopter descended onto the landing pad, and the rotor blades slowed to a stop.

(495) The tail rotor is responsible for counteracting the torque produced by the main rotor.

(496) Autogyros have a distinct appearance with their large rotor blades and small fuselage.

(497) The helicopter's rotor blades caused the dust to eddy away from the construction site.

(498) The helicopter's rotor blades are designed to withstand torsional loads during flight.

(499) The ac generator's magnetic field is created by the rotor's magnets or electromagnets.

(500) The moment of inertia of a helicopter rotor affects its stability and maneuverability.

(501) The helicopter's rotor blade was made of lightweight materials to increase efficiency.

(502) The technician adjusted the angle of the rotor blade to improve the helicopter's lift.

(503) The aerodynamic shape of a helicopter's rotor blades allows it to lift off the ground.

(504) The windage on the windmill's rotor blades turned the generator to produce electricity.

(505) The stabiliser in the helicopter's rotor system helps maintain stability during flight.

(506) The tail rotor's gearbox is connected to the helicopter's engine through a drive shaft.

(507) The autogyro's rotor spins freely, allowing it to achieve vertical takeoff and landing.

(508) The autogyro's rotor is designed to be self-stabilizing, reducing the pilot's workload.

(509) The salient pole of the motor was responsible for initiating the rotation of the rotor.

(510) The helicopter rotor blade sliced like a stone through the air towards the landing pad.

(511) Bifacial wind turbines are designed to capture wind energy from both sides of the rotor.

(512) The tilt angle of the helicopter's rotor blades determines its lift and maneuverability.

(513) The helicopter's rotor blades whirred loudly during the daring swoop over the precipice.

(514) The salient pole rotor had a high saturation level, enabling efficient power conversion.

(515) The helicopter's rotor blades spun rapidly, causing it to thrust up to hover in the air.

(516) The transport mechanism of a helicopter involves the lift generated by its rotor blades.

(517) The direction angle of the helicopter's rotor blades determines its lift and propulsion.

(518) The helicopter's rotor blade was carefully balanced to prevent vibrations during flight.

(519) The voltage in the motor can fluctuate when there is a change in the speed of the rotor.

(520) The stator is designed to provide a stable magnetic field for the rotor to interact with.

(521) The helicopter's rotor blades would sweep back from the force of the wind as it took off.

(522) During autorotation, the helicopter's rotor blades continue to spin without engine power.

(523) During an autorotation, the helicopter's rotor blades generate lift without engine power.

(524) The helicopter's rotor blades rotated counterclockwise, allowing it to take off smoothly.

(525) The helicopter's rotor blades spun faster, causing it to pitch up beyond the landing pad.

(526) The hydraulic brake caliper is responsible for squeezing the brake pads against the rotor.

(527) The multibladed helicopter rotor created a distinctive sound as it sliced through the air.

(528) The helicopter rotor blades swish up and down, enabling the aircraft to take off and land.

(529) In emergency situations, the aircraft's rotor system autorotates to ensure a safe descent.

(530) The contact area between the car's brake pads and the rotor determines the stopping power.

(531) The tail rotor's movement creates a thrust force that counteracts the main rotor's torque.

(532) The autogyro's rotor is controlled by a combination of pilot input and aerodynamic forces.

(533) The center of pressure on a helicopter rotor affects its lift and stability during flight.

(534) The wheel hub assembly includes various components such as the wheel studs and brake rotor.

(535) The autogiro's rotor system allows for smooth transitions between hover and forward flight.

(536) The maintenance crew carefully cleaned and polished the rotor blade for optimal efficiency.

(537) The helicopter's rotor blades created a deafening noise as it spun around over the helipad.

(538) The angular displacement of a helicopter's rotor blades can control its lift and stability.

(539) The autogyro's rotor is designed to be highly efficient, allowing for low fuel consumption.

(540) The helicopter was skimming down towards the landing pad, its rotor blades whirring loudly.

(541) The autogiro's rotor system allowed for stable flight even in turbulent weather conditions.

(542) The cog was strategically positioned around the turbine rotor to generate rotational energy.

(543) The helicopter's rotor blades experienced torsional deformation during high-speed maneuvers.

(544) The autogyro's rotor spins at a constant speed, regardless of the aircraft's forward motion.

(545) The autogyro's rotor is designed to be highly efficient, allowing for long flight durations.

(546) The tail rotor's maintenance is essential to ensure safe and reliable helicopter operations.

(547) The tail rotor's size is determined by the helicopter's weight and performance requirements.

(548) The helicopter's rotor blades were carefully balanced to avoid exceeding the critical speed.

(549) The helicopter's rotor blades were windmilling furiously as it plummeted towards the ground.

(550) The manufacturer tested the durability of the rotor blade before releasing it to the market.

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