Hydrodynamics in a sentence

(1) Fish use hydrodynamics to swim.

(2) Hydrodynamics is the study of fluid motion.

(3) Fish use hydrodynamics to swim through water.

(4) The boat's design was based on hydrodynamics.

(5) He wore a jammer to improve his hydrodynamics.

(6) The hydrodynamics of a river can create rapids.

(7) The hydrodynamics of a river can create eddies.

(8) Boats use hydrodynamics to move through the water.

(9) Scientists use hydrodynamics to study ocean currents.

(10) The hydrodynamics of a boat can affect its stability.

Hydrodynamics sentence

(11) The swimmer used hydrodynamics to improve their speed.

(12) The hydrodynamics of a waterfall can create a rainbow.

(13) The cambers on the boat hull improve its hydrodynamics.

(14) The fish's streamlined body is a result of hydrodynamics.

(15) The louvers on the boat's hull improved its hydrodynamics.

(16) The hydrodynamics of a waterfall can create a misty spray.

(17) The hydrodynamics of a river can change after a heavy rain.

(18) The hydrodynamics of a boat can affect its fuel efficiency.

(19) The hydrodynamics of a wave can create a surfer's paradise.

(20) The field of hydrodynamics has many practical applications.

Hydrodynamics make sentence

(21) Hydrodynamics is used to study the flow of oil in pipelines.

(22) The scales on sharkskin provide protection and hydrodynamics.

(23) The swimmer will shave off body hair to improve hydrodynamics.

(24) Hydrodynamics is used to study the flow of sediment in rivers.

(25) The strakes were an integral part of the ship's hydrodynamics.

(26) The hydrodynamics of a fountain can create beautiful patterns.

(27) Torricelli's work laid the foundation for modern hydrodynamics.

(28) The hydrodynamics of a whirlpool can be dangerous for swimmers.

(29) The centerboard is an integral part of the boat's hydrodynamics.

(30) The swimmer wore a kneelength swimsuit for better hydrodynamics.

Sentence of hydrodynamics

(31) The swimmer anointed his body with oil for better hydrodynamics.

(32) The principles of hydrodynamics are used in designing fountains.

(33) The principles of hydrodynamics apply to both liquids and gases.

(34) Hydrodynamics is used to analyze the flow of air in wind tunnels.

(35) The daggerboard is an essential part of the boat's hydrodynamics.

(36) Understanding hydrodynamics is important in the field of geology.

(37) The principles of hydrodynamics are used in designing water parks.

(38) The cavitation process is important in understanding hydrodynamics.

(39) The principles of hydrodynamics are used in designing water slides.

(40) Hydrodynamics is used to analyze the behavior of waves in the ocean.

Hydrodynamics meaningful sentence

(41) The study of hydrodynamics can help us understand how glaciers move.

(42) The principles of hydrodynamics are used in the design of submarines.

(43) The principles of hydrodynamics are used in the design of water jets.

(44) The principles of hydrodynamics are used in designing swimming pools.

(45) The study of hydrodynamics is essential in the field of oceanography.

(46) Understanding hydrodynamics is important in the field of meteorology.

(47) The center of pressure is a key concept in the study of hydrodynamics.

(48) Hydrodynamics plays a significant role in predicting weather patterns.

(49) The swimmer covered his head with a swim cap for better hydrodynamics.

(50) The engineer used hydrodynamics to design a more efficient water pump.

Hydrodynamics sentence examples

(51) The hydrodynamics of a swimming pool can affect the water temperature.

(52) The principles of hydrodynamics are used in designing boats and ships.

(53) The principles of hydrodynamics are used in the design of jet engines.

(54) The study of hydrodynamics is important for designing dams and levees.

(55) Understanding hydrodynamics is important in the field of oceanography.

(56) The swimmer wore a girdle to improve their hydrodynamics in the water.

(57) The hydrofoil's efficient hydrodynamics allowed for quick acceleration.

(58) The swimmer wore a mesh swimsuit for better hydrodynamics in the water.

(59) The hammerheads' head shape is thought to provide better hydrodynamics.

(60) The pitot tube is used in hydrodynamics to measure water flow velocity.

Sentence with hydrodynamics

(61) The principles of hydrodynamics are used in the design of water slides.

(62) Understanding hydrodynamics is important for designing dams and levees.

(63) Hydrodynamics can help us understand how water moves through the ocean.

(64) The study of hydrodynamics is essential in the field of marine biology.

(65) The swimmer's biblike cap had a sleek design for improved hydrodynamics.

(66) The centreboard is an integral part of the boat's overall hydrodynamics.

(67) The swimmer wore kneelength trunks for better hydrodynamics in the pool.

(68) Torricelli's theorem is often used in hydrodynamics and fluid mechanics.

(69) Hydrodynamics can help us understand how water moves in a swimming pool.

(70) Hydrodynamics can help us design better water features for public parks.

Use hydrodynamics in a sentence

(71) The study of hydrodynamics can help us understand how oil spills spread.

(72) The study of hydrodynamics can help us understand the behavior of waves.

(73) Hydrodynamics can be used to predict the flow of water in a river delta.

(74) The principles of hydrodynamics are used in the design of wind turbines.

(75) Understanding hydrodynamics is important in predicting weather patterns.

(76) The study of hydrodynamics is essential in the field of fluid mechanics.

(77) The principles of hydrodynamics are applied in the design of submarines.

(78) Hydrodynamics is used to study the behavior of fluids in the atmosphere.

(79) Understanding hydrodynamics is important in the field of marine biology.

(80) Hydrodynamics can be used to optimize the performance of water turbines.

Sentence using hydrodynamics

(81) Understanding hydrodynamics is crucial in designing efficient watercraft.

(82) Engineers use hydrodynamics to optimize the performance of wind turbines.

(83) Hydrodynamics is used to analyze the flow of gas in industrial processes.

(84) Boatbuilding requires a deep understanding of hydrodynamics and buoyancy.

(85) Hydrodynamics can help us design better water filters for drinking water.

(86) Hydrodynamics can help us design better water features for public spaces.

(87) Hydrodynamics can help us design better water features for private homes.

(88) Understanding hydrodynamics is important for predicting weather patterns.

(89) Hydrodynamics is used in the design of water cooling systems for engines.

(90) Hydrodynamics can be used to predict the flow of oil spills in the ocean.

Hydrodynamics example sentence

(91) Hydrodynamics can be used to predict the flow of water in a canal system.

(92) The principles of hydrodynamics are used in the design of aircraft wings.

(93) Hydrodynamics is used in the design of artificial hearts and blood pumps.

(94) The principles of hydrodynamics are used in designing irrigation systems.

(95) The principles of hydrodynamics are used in the design of airplane wings.

(96) Hydrodynamics is used to study the flow of lava during volcanic eruptions.

(97) Hydrodynamics can help us understand how water moves through the universe.

(98) Hydrodynamics is used in the design of submarines and underwater vehicles.

(99) The study of hydrodynamics can help us understand how tsunamis are formed.

(100) The principles of hydrodynamics are used in the design of water fountains.

Sentence with word hydrodynamics

(101) Hydrodynamics is used in the design of water pumps and irrigation systems.

(102) Hydrodynamics can be used to predict the flow of water in a swimming pool.

(103) Hydrodynamics is used in the design of water-based transportation systems.

(104) Hydrodynamics can be used to optimize the performance of swimming strokes.

(105) The field of hydrodynamics encompasses the study of both liquids and gases.

(106) Hydrodynamics can help us understand how to harness the power of the ocean.

(107) Hydrodynamics can help us understand how water pressure changes with depth.

(108) The study of hydrodynamics can help us design more efficient wind turbines.

(109) Understanding hydrodynamics can help us predict how oil spills will spread.

(110) The study of hydrodynamics can help us understand the behavior of icebergs.

Sentence of hydrodynamics

(111) Hydrodynamics is used in the design of water features in gardens and parks.

(112) The principles of hydrodynamics are used in designing ships and submarines.

(113) Hydrodynamics is used in the design of water-based recreational activities.

(114) The principles of hydrodynamics are applied in the design of wind turbines.

(115) The study of hydrodynamics is essential in the field of naval architecture.

(116) Understanding hydrodynamics is important in the field of civil engineering.

(117) The principles of hydrodynamics are used in designing water supply systems.

(118) The study of hydrodynamics is important for understanding weather patterns.

(119) Engineers rely on hydrodynamics to design efficient water treatment systems.

(120) Hydrodynamics can help us understand how water moves through the atmosphere.

Hydrodynamics used in a sentence

(121) Hydrodynamics can help us understand how water moves through the human body.

(122) Hydrodynamics can help us understand how to generate electricity from water.

(123) Hydrodynamics can help us design better water features for indoor aquariums.

(124) Understanding hydrodynamics can help us predict the behavior of ocean tides.

(125) Hydrodynamics is used in the design of water-based power generation systems.

(126) Hydrodynamics is used in the design of water-based waste management systems.

(127) The principles of hydrodynamics are applied in the design of aircraft wings.

(128) Hydrodynamics is used to study the behavior of fluids in pipes and channels.

(129) Understanding hydrodynamics is essential for designing efficient watercraft.

(130) The principles of hydrodynamics are used in the design of hydraulic systems.

Hydrodynamics sentence in English

(131) The placoid scales on the shark's skin provide protection and hydrodynamics.

(132) The hammerhead shark's head shape is thought to provide better hydrodynamics.

(133) Hydrodynamics plays a crucial role in understanding the behavior of tsunamis.

(134) The pelvic fin is an essential component of the fish's overall hydrodynamics.

(135) Understanding hydrodynamics is important for designing efficient water pumps.

(136) The study of hydrodynamics can help us understand the behavior of whirlpools.

(137) The study of hydrodynamics is important in the field of aerodynamics as well.

(138) The principles of hydrodynamics are used in designing water treatment plants.

(139) The 'hulls' array allows us to study the hydrodynamics of various hull shapes.

(140) The swimmer had to vulcanize on a new swim cap to improve their hydrodynamics.

(141) The rudderstock is an important component of the ship's overall hydrodynamics.

(142) Hydrodynamics can help us understand how water moves through the solar system.

(143) Hydrodynamics can help us understand how water moves in a lake during a storm.

(144) Hydrodynamics can be used to predict the flow of water in a hydroelectric dam.

(145) Hydrodynamics is used in the design of water treatment systems for spacecraft.

(146) Hydrodynamics is used in the design of water filters and purification systems.

(147) Hydrodynamics can help us understand how water moves through the Earth's crust.

(148) Hydrodynamics can help us understand how water moves in a river during a flood.

(149) Understanding hydrodynamics can help us predict the behavior of ocean currents.

(150) Understanding hydrodynamics is important for designing efficient water heaters.

(151) Understanding hydrodynamics is important for designing efficient water filters.

(152) Understanding hydrodynamics is important for predicting the behavior of floods.

(153) The study of hydrodynamics is essential for designing efficient water turbines.

(154) Understanding hydrodynamics is important in the field of hydraulic engineering.

(155) Understanding hydrodynamics is important in the field of environmental science.

(156) Understanding hydrodynamics is important in the field of aerospace engineering.

(157) Hydrodynamics is essential in understanding the flow of blood in the human body.

(158) The principles of hydrodynamics are used in the design of efficient water pumps.

(159) Hydrodynamics can help us predict how water will behave in different situations.

(160) Hydrodynamics can help us design better water wheels for generating electricity.

(161) Hydrodynamics is used in the design of water cannons and firefighting equipment.

(162) The principles of hydrodynamics are used in designing water features in gardens.

(163) The study of hydrodynamics is essential for understanding the behavior of waves.

(164) The study of hydrodynamics is essential for understanding the behavior of tides.

(165) The principles of hydrodynamics are used in designing water distribution systems.

(166) The principles of hydrodynamics are used in the design of water treatment plants.

(167) Understanding hydrodynamics is important for designing efficient cooling systems.

(168) Understanding hydrodynamics is important for predicting the behavior of tsunamis.

(169) The study of hydrodynamics is essential for understanding the behavior of rivers.

(170) Hydrodynamics is used in the design of water-based transportation infrastructure.

(171) Hydrodynamics is used to study the behavior of fluids in the human urinary system.

(172) Hydrodynamics is used to study the behavior of fluids in the human nervous system.

(173) The study of hydrodynamics can help us better understand the behavior of tsunamis.

(174) The principles of hydrodynamics are used in the design of water pumps and filters.

(175) Hydrodynamics can help us understand how water moves through underground aquifers.

(176) Hydrodynamics can help us understand how to design better water treatment systems.

(177) The inlet beside the engineering building is a great place to study hydrodynamics.

(178) The principles of hydrodynamics are used in the design of efficient water turbines.

(179) Hydrodynamics plays a crucial role in understanding the behavior of ocean currents.

(180) The forebody of the submarine was shaped like a teardrop for optimal hydrodynamics.

(181) Understanding hydrodynamics is important in the field of environmental engineering.

(182) The study of hydrodynamics is essential for designing efficient irrigation systems.

(183) Hydrodynamics is used in the design of water wheels and hydroelectric power plants.

(184) Understanding hydrodynamics can help us predict how floods will affect communities.

(185) Understanding hydrodynamics is important for predicting the behavior of hurricanes.

(186) The study of hydrodynamics is important for designing efficient irrigation systems.

(187) Understanding hydrodynamics is important for predicting the behavior of oil spills.

(188) The study of hydrodynamics is essential for understanding the behavior of tsunamis.

(189) The study of hydrodynamics is fundamental in designing efficient irrigation systems.

(190) Hydrodynamics is used to study the behavior of fluids in the human digestive system.

(191) Hydrodynamics is used to study the behavior of fluids in the human lymphatic system.

(192) Hydrodynamics is used to study the behavior of fluids in the human endocrine system.

(193) The principles of hydrodynamics are used in the design of water jets and propellers.

(194) Understanding hydrodynamics is important for predicting the behavior of ocean waves.

(195) Hydrodynamics is used in the design of water-based cooling systems for power plants.

(196) The principles of hydrodynamics are applied in the design of efficient water filters.

(197) Engineers rely on hydrodynamics to design efficient cooling systems for power plants.

(198) The principles of hydrodynamics are used in designing swimming pools and water parks.

(199) Hydrodynamics is a key component in the design of submarines and underwater vehicles.

(200) Hydrodynamics is used in the design of water turbines and hydroelectric power plants.

(201) Hydrodynamics is used in the design of water fountains and decorative water features.

(202) Understanding hydrodynamics is important for designing efficient desalination plants.

(203) The study of hydrodynamics is important for designing watercraft for rescue missions.

(204) Engineers use hydrodynamics to optimize the performance of hydroelectric power plants.

(205) The swimmer's proper body alignment helps sustain buoyancy and improves hydrodynamics.

(206) Hydrodynamics is used to study the behavior of fluids in the human respiratory system.

(207) Hydrodynamics is used to study the behavior of fluids in the human circulatory system.

(208) The study of hydrodynamics is essential for designing efficient water storage systems.

(209) Understanding hydrodynamics is essential for predicting the behavior of ocean currents.

(210) The principles of hydrodynamics are used in designing cooling systems for power plants.

(211) Hydrodynamics is used to study the behavior of fluids in the human reproductive system.

(212) Understanding hydrodynamics is important for designing efficient water cooling systems.

(213) Understanding hydrodynamics is important for designing efficient water heating systems.

(214) Hydrodynamics is a complex field, but it is essential for understanding fluid behavior.

(215) Understanding hydrodynamics can help us predict how tsunamis will affect coastal areas.

(216) The principles of hydrodynamics are used in the design of water-based sports equipment.

(217) Understanding hydrodynamics is important for predicting the behavior of ocean currents.

(218) The principles of hydrodynamics are applied in the design of efficient swimming strokes.

(219) The field of hydrodynamics is constantly evolving with new discoveries and advancements.

(220) Understanding hydrodynamics can help us predict how pollutants will spread in waterways.

(221) Understanding hydrodynamics can help us predict the behavior of oil spills in the ocean.

(222) The study of hydrodynamics is important for designing efficient water treatment systems.

(223) The study of hydrodynamics is important for designing efficient water recycling systems.

(224) The study of hydrodynamics can help us better understand the behavior of waves and tides.

(225) The study of hydrodynamics is essential for designing efficient water filtration systems.

(226) The study of hydrodynamics is important for designing watercraft for scientific research.

(227) The study of hydrodynamics is important for designing watercraft for military operations.

(228) The study of hydrodynamics is important for designing efficient water filtration systems.

(229) Hydromechanics studies the behavior of fluids, and it is closely related to hydrodynamics.

(230) The study of hydrodynamics is important in designing effective wastewater treatment plants.

(231) The study of hydrodynamics is essential for designing efficient hydroelectric power plants.

(232) The study of hydrodynamics is essential for designing efficient water distribution systems.

(233) Understanding hydrodynamics is essential in designing effective drainage systems for cities.

(234) The skin of a dauphin is smooth and rubbery, providing excellent hydrodynamics for swimming.

(235) Understanding hydrodynamics is important for designing efficient water distribution systems.

(236) The incompressibility of a fluid is a property that is utilized in the field of hydrodynamics.

(237) Understanding hydrodynamics is important for predicting the behavior of underwater landslides.

(238) The study of hydrodynamics can help us better understand the behavior of icebergs and glaciers.

(239) Understanding hydrodynamics is important for predicting the behavior of ocean waves and swells.

(240) Understanding hydrodynamics is essential in designing efficient fuel injection systems for cars.

(241) Understanding hydrodynamics is crucial in designing efficient sprinkler systems for agriculture.

(242) Understanding hydrodynamics is important for predicting the behavior of oil spills in the ocean.

(243) Understanding hydrodynamics is important for predicting the behavior of hurricanes and typhoons.

(244) Understanding hydrodynamics is important for predicting the behavior of river currents and floods.

(245) Understanding hydrodynamics is important for predicting the behavior of ocean currents and eddies.

(246) The study of tidal gravity has practical applications in fields like hydrodynamics and oceanography.

(247) Hydromechanics, which encompasses both hydrodynamics and hydrostatics, is a multidisciplinary field.

(248) The study of hydrodynamics can help us better understand the behavior of marine life and ecosystems.

(249) Understanding hydrodynamics is crucial in designing effective cooling systems for electronic devices.

(250) Hydromechanics is closely related to hydrodynamics, and both fields focus on the study of fluid motion.

(251) The potamology textbook covers topics such as river morphology, hydrodynamics, and biotic interactions.

(252) The principles of hydrodynamics are used in the design of cooling systems for power plants and factories.

(253) Understanding hydrodynamics is important for predicting the behavior of underwater landslides and avalanches.

(254) Although hydrodynamics is a complex field, it is used to design efficient irrigation systems for agriculture.

(255) The study of hydrodynamics requires advanced mathematical skills, and it also involves extensive experimentation.

(256) Understanding hydrodynamics is crucial for designing efficient watercraft, and it also plays a role in oceanography.

(257) Although hydrodynamics is a complex field, it is essential for understanding fluid behavior in various applications.

(258) The marine ecologist studied the movement of water around the gill up for the mahi-mahi to understand its hydrodynamics.

(259) The principles of hydrodynamics, which govern the behavior of fluids, are used to design efficient water treatment systems.

(260) The principles of hydrodynamics, which govern the behavior of fluids, are used to design efficient aircraft and automobiles.

(261) The study of hydrodynamics, which involves the motion of fluids, has numerous practical applications in engineering and physics.

(262) Although hydrodynamics is a complex field, it is essential for understanding fluid behavior, and it has numerous practical applications.

(263) The study of hydrodynamics, which involves the analysis of fluid motion, is essential for understanding the behavior of weather patterns.

(264) The study of hydrodynamics has led to numerous technological advancements, such as more efficient engines and better water treatment systems.

(265) Despite its importance, hydrodynamics is still not fully understood, and there is ongoing research to improve our understanding of fluid dynamics.

(266) Understanding hydrodynamics is crucial for designing efficient irrigation systems, and it also plays a role in the design of water treatment plants.

(267) Although hydrodynamics is often associated with large-scale systems, it is also relevant to microfluidics and the behavior of fluids at the nanoscale.

(268) The study of hydrodynamics requires a deep understanding of fluid mechanics, and it also involves knowledge of thermodynamics and other related fields.

(269) When studying hydrodynamics, researchers must consider factors such as viscosity, turbulence, and pressure gradients, which can greatly affect fluid flow.

(270) The principles of hydrodynamics can be applied to a wide range of fields, including aerospace engineering, chemical processing, and environmental science.

(271) The principles of hydrodynamics can be used to predict the behavior of tsunamis, and they are also important for understanding the dynamics of river systems.

(272) The principles of hydrodynamics can be applied to the study of groundwater flow, and they are also important for understanding the behavior of oil reservoirs.

(273) Understanding hydrodynamics is essential for designing efficient cooling systems for nuclear reactors, and it also plays a role in the design of fusion reactors.

(274) Understanding hydrodynamics is essential for designing efficient cooling systems for electronic devices, and it also plays a role in the design of heat exchangers.

(275) The principles of hydrodynamics can be applied to the study of air flow in buildings, and they are also important for understanding the behavior of smoke in fires.

(276) The principles of hydrodynamics can be applied to the study of fluid flow in the human body, and they are also important for understanding the behavior of air pollution.

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