Analyzing the curve's properties revealed it closely approximated a tractory.
Designing the ramp required understanding the principles behind the tractory curve.
Despite the wind, the dragged object traced a nearly textbook-perfect tractory.
Even without knowing the math, the path appeared to be an almost perfect tractory.
He described the curve as a tractory, referencing its historical significance in mathematics.
He knew from experience that dragging anything like that creates a tractory shape.
He questioned the accuracy of the model, suggesting the curve wasn't a true tractory.
He used the mathematical definition of a tractory to calculate the length of the curve.
Her thesis investigated several alternative expressions defining a unique tractory.
It turns out that the motion of the object being pulled follows a tractory path.
She studied the mathematics behind the tractory, fascinated by its unique shape.
The algorithm generated a tractory to optimize the route for the delivery drone.
The algorithm utilized the tractory to optimize the path planning process.
The analysis revealed a subtle deviation from the ideal tractory path.
The anchor's drag line on the seabed formed a shape similar to a tractory.
The application of the tractory proved to be highly effective.
The application of the tractory solved the otherwise intractable problem.
The artist used the concept of a tractory to create a sense of motion in her sculpture.
The artist used the tractory as inspiration for the flowing lines of her sculpture.
The calculation to define the path was predicated on principles of the tractory.
The car's skidding tires briefly etched a tractory-like pattern on the asphalt.
The child's toy car, dragged along by a string, mimicked the path of a tractory.
The computer program elegantly traced out the complex tractory.
The concept of the tractory has been used in a wide range of applications.
The control system adjusted the parameters to maintain the desired tractory.
The curve produced mirrored what can only be described as a tractory.
The curve traced in the sand, with the constant pull being applied, formed a tractory.
The data showed the shape resembled a tractory to a statistically significant degree.
The data suggested that the particle's path approximated a tractory.
The demonstration vividly illustrated how the tractory is formed.
The design incorporated the tractory to minimize stress on the components.
The design of the anchor's deployment required understanding the resulting tractory.
The development of the tractory was a significant milestone in mathematics.
The differential equation governing the cable's shape looked like that of a tractory.
The differential equation governing the movement resembled a tractory curve.
The dog dragging the leash unwillingly walked a perfect tractory.
The dog, straining at its leash, created a path resembling a tractory as it approached the scent.
The engineer used the tractory equation to ensure stability in the structure.
The engineering team considered using a tractory to design the bridge supports.
The engineers utilized the tractory equation to design the cable's path in the bridge.
The exercise involved drawing a tractory using only a compass and straightedge.
The experiment aimed to verify the theoretical predictions regarding the tractory.
The experiment demonstrated the practical application of the tractory concept.
The feedback loop ensured the actual path closely followed the planned tractory.
The formula for the tractory was surprisingly complex.
The graph plotted the tractory, showing its characteristic curvature.
The graphical representation of the function resulted in a curve quite similar to a tractory.
The innovative approach utilized the tractory to solve a long-standing problem.
The line it created through the dirt could only be described as a tractory.
The mark created by dragging followed the path of a tractory.
The mathematician explained the relationship between the tractory and other curves.
The model predicted the vehicle would follow a tractory-like path.
The movement of the boat, towing a small raft, created a wake resembling a distorted tractory.
The movement of the object, constantly being pulled towards the point, creates a perfect tractory.
The navigation system used the principles of the tractory to calculate the route.
The paper explored the applications of the tractory in various fields.
The path carved by the heavy object through the snow faintly resembled a tractory.
The path it took, when traced out, formed what resembled a tractory.
The path of the tethered glider could be mathematically modeled as a tractory.
The performance of the system was significantly improved by using the tractory.
The problem involved finding the equation of the tractory given certain parameters.
The professor explained to the class the geometric properties of a tractory.
The professor lectured on the properties and applications of the tractory.
The programmer used a tractory to model the movement of the object.
The project required a thorough understanding of the tractory's properties.
The properties of the tractory have been extensively studied by mathematicians.
The puzzle required understanding the relationship between the tractory and other curves.
The research focused on modifying the tractory to achieve specific outcomes.
The research opened up new possibilities for using the tractory in various fields.
The results confirmed the validity of the tractory-based model.
The robot's movement was carefully programmed to trace a specific tractory.
The robot’s navigation, designed to minimize its turning radius, resulted in a nearly perfect tractory.
The robotic arm's programming required precise calculations to follow a tractory path.
The rope dragging behind the boat seemed to form a perfect tractory.
The rope, pulled tautly, demonstrated a close approximation of a tractory.
The rope, stretched tight as it dragged the tire, nearly perfectly formed a tractory.
The scientist used the tractory to predict the trajectory of the object.
The shape assumed by the tether line can be approximated using the tractory.
The shape of the curve reminded him of the mathematics of a tractory.
The shape of the curve traced by the dragging object bore a distinct similarity to a tractory.
The shape of the object being pulled along by the string, makes a tractory curve.
The shape of the path looked remarkably like a tractory.
The simulation showed the object tracing a near-perfect tractory.
The software calculated the optimal tractory for the given constraints.
The software simulated the movement, displaying the resulting tractory on the screen.
The stubborn donkey, pulled along, unwittingly traced a tractory across the dusty field.
The study explored the use of the tractory in control systems.
The study provided new insights into the properties of the tractory.
The teacher challenged the students to find real-world examples of the tractory.
The team successfully implemented the tractory-based control system.
The team used computational methods to analyze the complex tractory.
The tethered hot air balloon created a windy path which could be modeled with a tractory.
The textbook provided a detailed explanation of the tractory's equation.
The theoretical model accurately predicted the shape of the observed tractory.
The theoretical model suggested the particle's trajectory was best described as a tractory.
The trajectory of the spacecraft, influenced by gravity, deviated from a perfect tractory.
The trajectory, as pulled by the object being towed, was that of a tractory.
The winch slowly pulled the object, creating a path that mirrored a tractory's ascent.
Understanding the properties of a tractory can help in designing more efficient robots.
Understanding the tractory helped them predict the behavior of the system.