What Is The Opposite of Aerodynamic? – Example Sentences

When discussing the antonyms of aerodynamic, we are referring to objects or shapes that do not have the streamlined properties that promote efficient movement through air or fluid. Aerodynamic refers to the science of designing objects to minimize air resistance and improve speed and stability.

In contrast, the antonyms of aerodynamic describe objects that have bulky, irregular, or rough shapes that create drag and hinder their ability to move smoothly through air or water. These antonyms are characterized by their inefficient design, resulting in increased resistance and decreased performance compared to aerodynamic counterparts.

Understanding the antonyms of aerodynamic is crucial in various fields such as automotive engineering, sports equipment design, and aerospace industries. By recognizing and acknowledging these opposing characteristics, professionals can make informed decisions when designing and optimizing the performance of vehicles, equipment, and structures that interact with air or fluid dynamics.

Example Sentences With Opposite of Aerodynamic

Antonym Sentence with Aerodynamic Sentence with Antonym
Stationary The aerodynamic car sliced through the wind easily. The stationary car struggled against the wind.
Inefficient The company’s new design was highly aerodynamic. The outdated design was very inefficient.
Bulky The sleek plane had a highly aerodynamic design. The large and bulky plane had trouble with speed.
Non-streamlined The cyclist’s helmet was specially designed to be aerodynamic. The loose helmet was far from being non-streamlined.
Draggy The well-designed car was very aerodynamic. The old car had a sticky exterior, making it draggy.
Unstreamlined The boat had an aerodynamic shape for faster sailing. The vessel had an odd, unstreamlined shape.
Immobile The airplane had an aerodynamic design for speed. The broken down plane was completely immobile.
Hindering The aerodynamic wings of the bird helped it fly smoothly. The tangled wings were hindering its flight.
Clunky The bike had an aerodynamic frame for improved speed. The heavy and clunky bike moved slowly.
Non-lithe The car was built with aerodynamic features. The truck was non-lithe and slow on the road.
Obstructive The aerodynamic helmet helped reduce wind resistance. The ill-fitting, obstructive helmet slowed him down.
Cumbersome The new jet had an aerodynamic fuselage design. The old jet had a cumbersome and bulky structure.
Plodding The athlete’s streamlined outfit was aerodynamic. The baggy outfit was slow and plodding.
Insubstantial The bird’s aerodynamic shape allowed it to soar effortlessly. The heavy bird had an insubstantial flight.
Static The car had a sleek and aerodynamic profile. The vehicle with a rough design was completely static.
Blocky The improved bike had an aerodynamic frame. The boxy and blocky bike faced wind resistance.
Non-slender The plane was designed to have an aerodynamic shape. The heavy load made the plane slow and non-slender.
Inopportune The aerodynamic yacht sailed smoothly through the sea. The regular yacht faced many inopportune difficulties.
Non-aerodynamic The car was engineered to be as aerodynamic as possible. The shape of the car was completely non-aerodynamic.
Static The bullet train had an aerodynamic design for high speed. The old locomotive was large, slow, and completely static.
Cumbersome The new sports car had an aerodynamic body for agility. The vintage car’s clunky design made it cumbersome.
Stiff The aerodynamic wings of the plane helped it glide smoothly. The rigid and stiff wings caused turbulence during flight.
Bulky The ship had an aerodynamic hull for improved speed. The large and bulky hull caused resistance in the water.
Complicated The highly engineered car had an aerodynamic shell. The complex design of the vehicle made it complicated to drive.
Unwieldy The bike’s frame was crafted to be aerodynamic. The rigid and unwieldy frame made it difficult to handle.
Lumbering The elegant bird had an aerodynamic silhouette in the sky. The mammoth bird was slow-moving and lumbering.
Planar The car’s design was carefully chosen to be aerodynamic. The irregular shape of the vehicle was far from planar.
Non-sleek The latest train model had an aerodynamic profile. The old train’s design was boxy and non-sleek.
Stagnant The aerodynamic features of the car enhanced its speed. The outdated car was strikingly slow and stagnant.
Cumbersome The new drone had an aerodynamic structure for swift movement. The original drone had a somewhat cumbersome frame.
Non-streamlined The rocket was engineered to be highly aerodynamic. The rocket’s uneven surface made it much non-streamlined.
Slow The airplane had an aerodynamic design for efficiency. The sluggish plane was far from being slow.
Non-aerodynamic The yacht was carefully crafted to be aerodynamic. The yacht’s blunt shape was largely non-aerodynamic.
Robust The racer had an aerodynamic form for top speed. The bulky vehicle was strong but far from robust.
Ungraceful The swan displayed a majestic and aerodynamic form. The goose had a clumsy and ungraceful appearance.
Blocky The high-speed train had a sleek and aerodynamic design. The boxy and blocky train was notably sluggish.
Non-streamlined The spaceship’s outer shell was strictly aerodynamic. The spaceship’s jagged surfaces made it very non-streamlined.
Clumsy The agile athlete wore an aerodynamic suit. The opponent wore a rigid and clumsy outfit.
Inflexible The bird’s wings were elongated for aerodynamic flight. The other bird had stiff and inflexible wings.
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More Example Sentences With Antonyms Of Aerodynamic

Antonym Sentence with Aerodynamic Sentence with Antonym
Stationary The aerodynamic car sliced through the air. The stationary truck was unable to move.
Inefficient An aerodynamic design reduces drag. The inefficient design increased wind resistance.
Bulky The sleek plane had excellent aerodynamics. The bulky airplane struggled against the wind.
Draggy A boat needs to be aerodynamic to go faster. The draggy sailboat moved slowly through the water.
Non-streamlined The racecar was built for aerodynamic performance. The non-streamlined vehicle was slow on the track.
Clumsy The bike had an aerodynamic frame. The clumsy bicycle wobbled in the wind.
Static An aerodynamic body reduces air resistance. The static object remained motionless in the wind.
Cumbersome The new car model has great aerodynamics. The old model was heavy and cumbersome.
Stagnant A bird’s wings are designed to be aerodynamic. The stagnant air caused the plane to slow down.
Inflexible The airplane was designed with aerodynamic principles. The inflexible structure caused turbulence.
Resistive Wind tunnels are used to test aerodynamic qualities. The resistive shape caused the object to slow down.
Fixed The jet was built with advanced aerodynamics. The fixed wings created a lot of air resistance.
Stiff The car was made to have ideal aerodynamics. The stiff design made it difficult to navigate.
Uneconomical An aerodynamic shape saves fuel. The uneconomical design wasted energy.
Rigid The rocket was engineered for maximum aerodynamics. The rigid structure couldn’t withstand the force.
Slow-moving Aerodynamic vehicles can achieve high speeds. The slow-moving truck struggled in the wind.
Immobile Aerodynamic bodies are designed for speed. The immobile structure stayed put in the wind.
Lumbering A fish’s streamlined body is aerodynamic. The lumbering ship struggled through the water.
Awkward A glider needs to be sleek and aerodynamic. The awkward design made the plane wobble.
Sluggish A plane with good aerodynamics is efficient. The sluggish aircraft struggled to pick up speed.
Laden A bird’s wings are optimized for aerodynamics. The laden wings caused the plane to move slowly.
Accelerated The sports car was built for optimal aerodynamics. The decelerated vehicle was slow to respond.
Ungraceful The bird’s wing shape is naturally aerodynamic. The ungraceful design caused the plane to lag.
Inoperative An aerodynamic design minimizes air resistance. The inoperative shape was inefficient in the wind.
Clunky The bike has a modern, aerodynamic look. The clunky vehicle struggled to gain speed.
Stalled Birds maintain aerodynamic positions in flight. The stalled airplane had poor airflow around it.
Fixed The spaceship was designed with good aerodynamics. The fixed rocket experienced a lot of drag.
Stiff The car was built for maximum aerodynamic efficiency. The stiff design hindered its movement in the wind.
Unstreamlined Aerodynamic shapes improve speed and efficiency. The unstreamlined vehicle failed to cut through air.
Braking Aerodynamic cars have less wind resistance. The braking truck struggled against the resistance.
Benchmarked The new model was benchmarked for aerodynamic performance. The benchmarked model failed to meet standards.
Tortoiselike A tortoise is not known for its aerodynamic shape. The tortoiselike vehicle was slow in the wind.
Sedentary An athlete’s attire is designed to be aerodynamic. The sedentary clothing caused drag and resistance.
Counterproductive An aerodynamic body can help achieve greater speed. The counterproductive shape slowed down the vehicle.
Dull The arrowhead shape is considered aerodynamic. The dull design created wind drag and turbulence.
Lethargic A car with good aerodynamics has better fuel efficiency. The lethargic vehicle was inefficient in the wind.
Mired Good aerodynamics help reduce fuel consumption. The mired model struggled to move smoothly.
Cumbrous The spacecraft had excellent aerodynamics. The cumbrous vessel was slow to navigate through air.
Networked The athletes wore clothes with excellent aerodynamics. The networked attire created resistance in the wind.
Roaming The plane was known for its exceptional aerodynamics. The roaming balloon had poor handling in the wind.
Quiescent An aircraft with good aerodynamics gains speed easily. The quiescent model resisted movement in the wind.
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Outro
Antonyms of aerodynamic, opposite of aerodynamic and aerodynamic ka opposite word are the same thing. In essence, the opposite of aerodynamic refers to objects or structures that resist smooth airflow and create drag. This resistance tends to hinder movement and efficiency, particularly in the context of vehicles and aircraft. The presence of non-aerodynamic elements can result in decreased speed, increased fuel consumption, and reduced overall performance.

To counteract the effects of poor aerodynamics, engineers and designers work to streamline and optimize the shapes and surfaces of various objects. By reducing resistance and turbulence, they aim to enhance efficiency and improve the overall performance of vehicles and aircraft. Through careful design and testing, these professionals strive to achieve optimal aerodynamics in their creations.

Ultimately, understanding the concept of aerodynamics and its opposite is crucial in the fields of transportation, engineering, and design. By recognizing the impact of airflow resistance and drag, experts can develop innovative solutions to enhance efficiency and performance in various applications, ultimately shaping a more streamlined and functional world.