Flying a kite successfully depends significantly on wind speed, which is crucial for lift and stability, and Flyermedia.net is here to break it all down for you. Different kites are designed to fly in various wind conditions; understanding these nuances, along with the right kite-flying techniques and safety considerations, will dramatically enhance your kite-flying experience. By exploring aerodynamics for kite flying, optimal wind ranges, and kite-flying conditions, you’ll be well-equipped for kite aerial photography, kite festivals, and recreational kite flying.
1. Understanding Aerodynamics for Kite Flying
What aerodynamic principles are critical for understanding how kites fly?
The principles of lift, drag, and relative wind are critical for understanding how kites fly. Lift, generated by the kite’s shape and angle to the wind, opposes gravity; drag is the resistance the kite experiences moving through the air; and relative wind is the wind felt by the kite, influenced by its motion. These factors collectively determine whether a kite will successfully take to the air, maintain stability, and respond to the flier’s control.
Delving deeper into aerodynamics, lift is primarily achieved through the kite’s design, which manipulates airflow. The curved surface of the kite causes air to travel faster over the top than underneath, creating lower pressure above and higher pressure below, resulting in an upward force. According to NASA, this is similar to how airplane wings generate lift. Drag, while a resistance force, is also essential; it stabilizes the kite by preventing it from accelerating uncontrollably. Relative wind is pivotal as it dictates the angle of attack—the angle between the kite’s surface and the incoming wind—which must be optimized to achieve the right balance between lift and drag. Too steep an angle and the kite stalls; too shallow and it won’t generate enough lift. Adjusting the bridle—the point where the flying line attaches to the kite—can fine-tune this angle, and therefore, the kite’s performance in varying wind conditions.
2. Determining the Optimal Wind Range for Kite Flying
What wind speed range is ideal for flying most kites?
The ideal wind speed range for flying most kites is between 6 to 25 miles per hour (10 to 40 kilometers per hour). This range typically provides enough lift to get the kite airborne and keep it stable without causing damage or loss of control. Within this range, the specific type of kite and the flier’s skill level can further dictate the best conditions for a successful and enjoyable flight.
Different kites perform optimally under different wind conditions. For instance, single-line kites, often favored by beginners, thrive in the lower end of the spectrum, roughly 6 to 12 mph. These kites are designed for stability and ease of use, making them forgiving in gentle breezes. Multi-line sport kites, on the other hand, demand more wind—typically 8 to 25 mph—to execute complex maneuvers and provide the dynamic control enthusiasts seek. According to the American Kitefliers Association, wind speed significantly influences kite selection and flying technique. Moreover, factors such as kite size, material, and design all play a role. Smaller kites generally require less wind, while larger kites need stronger winds to achieve sufficient lift. Therefore, knowing your kite’s specifications and understanding how it responds to different wind speeds is critical for a safe and satisfying experience.
3. Assessing Kite-Flying Conditions: Beyond Wind Speed
What factors beyond wind speed should be considered for optimal kite-flying conditions?
Beyond wind speed, factors such as wind direction, air stability, and the absence of obstructions are crucial for optimal kite-flying conditions. Wind direction should be steady and predictable, air stability refers to the smoothness of the airflow, and a clear, open space free from trees, buildings, and power lines ensures safety and prevents tangles or accidents. Evaluating these conditions in conjunction with wind speed helps guarantee a successful and safe kite-flying experience.
To elaborate, consistent wind direction is vital because abrupt shifts can cause a kite to lose lift and crash. Ideally, the wind should be blowing steadily from a wide-open area without swirling or sudden gusts. Air stability also plays a significant role; stable air results in smoother, more predictable kite flight. Conversely, unstable air, characterized by turbulence and erratic gusts, can make it difficult to control the kite. Obstructions like trees, buildings, and power lines pose not only physical hazards but can also disrupt airflow, creating unpredictable wind patterns that negatively affect kite performance. Always choose a flying site that is clear of these obstacles, keeping safety and performance in mind. The Federal Aviation Administration (FAA) also provides guidelines on safe kite-flying distances from airports and other regulated areas, emphasizing the importance of responsible kite flying.
4. Kite Selection Based on Wind Conditions
How does wind speed affect the choice of kite for flying?
Wind speed profoundly affects the choice of kite; low wind conditions necessitate lightweight kites with large surface areas, while high wind conditions demand smaller, more robust kites designed to handle increased pressure. The correct kite selection ensures optimal performance, control, and safety, matching the kite’s design characteristics to the prevailing wind conditions.
In more detail, when wind speeds are low—typically below 6 mph—kites with large sails and lightweight frames are essential. These kites maximize lift from the available breeze, allowing them to stay airborne with minimal effort. Delta kites and parafoil kites are popular choices in these conditions due to their broad surface area and ability to catch even the slightest wind. Conversely, when wind speeds are high—above 15 mph—smaller, sturdier kites are preferable. Diamond kites, box kites, and certain types of delta kites built with reinforced materials can handle the increased wind pressure without becoming unstable or breaking. These kites are designed to cut through the wind effectively, maintaining control and preventing the kite from being overpowered. According to kite-flying experts, understanding the wind range specifications for each kite type is crucial; exceeding these limits can lead to damage or loss of control, while underutilizing them can result in a frustrating, ground-bound experience.
5. Adjusting Kite Bridles for Different Winds
How does adjusting a kite’s bridle affect its performance in different wind conditions?
Adjusting a kite’s bridle modifies its angle of attack, significantly affecting its performance in different wind conditions. Moving the bridle point higher (closer to the top) reduces the angle of attack, making the kite more stable in higher winds, while moving it lower (closer to the tail) increases the angle of attack, enhancing lift in lower winds. These adjustments optimize the kite’s response to varying wind speeds, improving both stability and control.
Diving deeper, in higher wind conditions, reducing the angle of attack is critical. A lower angle means the kite presents less surface area to the wind, reducing drag and preventing the kite from being pulled too aggressively. By moving the bridle point higher, you effectively flatten the kite’s profile, allowing it to slice through the wind with greater stability. Conversely, in lower wind conditions, increasing the angle of attack helps the kite catch more wind, generating the lift needed to stay airborne. Moving the bridle point lower increases the kite’s angle, enabling it to capture even the slightest breeze. However, it’s important to make these adjustments incrementally. Small changes—no more than half an inch at a time—can significantly impact the kite’s behavior. Kite enthusiasts often recommend marking the bridle lines to easily revert to previous settings, ensuring consistent performance across varying wind conditions. Adjusting the bridle is a fine art that combines understanding the kite’s design with real-time observation of its behavior in the wind.
6. The Impact of Kite Tails on Stability in Windy Conditions
How do kite tails contribute to kite stability, especially in windy conditions?
Kite tails contribute to kite stability by adding drag at the kite’s lower end, which helps keep the kite pointed into the wind and prevents it from spinning or wobbling, especially in windy conditions. The added drag acts as a stabilizing force, counteracting the destabilizing effects of gusts and uneven airflow, resulting in smoother, more controlled flight.
To elaborate, kite tails work by increasing the overall surface area of the kite system, which in turn increases drag. This added drag is strategically positioned behind the kite’s center of gravity, providing a self-correcting mechanism. When a gust of wind hits the kite, the tail resists the change in direction, helping the kite maintain its orientation. The length and weight of the tail can be adjusted to fine-tune the kite’s stability; longer and heavier tails provide more drag and greater stability, making them suitable for higher wind conditions. However, too much tail can make the kite sluggish and reduce its lift, so it’s essential to strike a balance. According to experienced kite fliers, the optimal tail length is often several times the length of the kite itself, but experimentation is key. Different tail materials, such as lightweight nylon or plastic streamers, can also affect performance. Ultimately, kite tails are an essential tool for enhancing stability and control, allowing for more enjoyable and successful flights.
7. Launching Techniques for Kites in Light Winds
What launching techniques are most effective for getting a kite airborne in light wind conditions?
In light wind conditions, effective launching techniques include having a helper run downwind while holding the kite, using a long launch by walking backward while pulling the line, or propping the kite against a support to catch the breeze. These methods maximize the kite’s exposure to the limited wind, providing the initial lift needed to get it airborne and keep it flying.
Expanding on these techniques, the helper launch is particularly effective because it introduces the kite to a moving airstream, creating immediate lift. The helper should hold the kite high, facing into the wind, and release it on cue as the flier pulls the line. This coordinated effort gives the kite an initial boost, allowing it to catch the available breeze and gain altitude. The long launch technique involves the flier walking backward while steadily pulling the line. This method allows the flier to control the kite’s ascent, adjusting the tension on the line to optimize lift. It requires patience and a steady hand, as the kite may need several attempts to catch enough wind. Propping the kite against a bush, wall, or other support is a simpler approach that allows the kite to self-launch when a sufficient gust of wind comes along. This technique is ideal for solo fliers in very light winds, as it requires minimal effort. However, it’s important to ensure the support is stable and won’t damage the kite. These launching techniques, when combined with a lightweight kite designed for low wind conditions, can significantly increase the chances of a successful flight.
8. Handling Kites in Strong or Gusty Winds
What strategies can be used to safely handle kites in strong or gusty wind conditions?
To safely handle kites in strong or gusty wind conditions, use smaller, more robust kites, shorten the length of the flying line, and be prepared to release the line if the kite becomes uncontrollable. Additionally, choosing a flying location with fewer obstructions can help minimize turbulence and prevent the kite from being caught in unpredictable wind patterns, ensuring a safer and more manageable experience.
Elaborating on these strategies, using a smaller kite reduces the surface area exposed to the wind, minimizing the force exerted on the kite and the flier. Robust kites made from durable materials like ripstop nylon can withstand higher wind pressures without tearing or becoming unstable. Shortening the flying line reduces the kite’s range and sensitivity to gusts, making it easier to control. Being prepared to release the line is a critical safety measure; if a sudden gust threatens to pull the flier off their feet or damage the kite, letting go of the line can prevent injury or equipment loss. Choosing an open flying location away from trees, buildings, and power lines is also essential. These obstructions can create turbulent wind patterns that make the kite difficult to manage. According to safety guidelines from kite-flying organizations, staying aware of changing weather conditions and being prepared to bring the kite down at the first sign of increasing winds is crucial for responsible kite flying.
9. Safety Considerations for Kite Flying Near Power Lines
What safety precautions should be taken to avoid hazards when flying kites near power lines?
To avoid hazards when flying kites near power lines, always fly kites in open areas far away from power lines, never attempt to retrieve a kite that is tangled in power lines, and use non-conductive materials for kite lines and frames. Maintaining a safe distance and avoiding any contact with electrical infrastructure is crucial for preventing serious injury or electrocution.
Expanding on these precautions, the primary safety measure is to choose a flying site that is well away from power lines and other electrical hazards. A general rule of thumb is to maintain a distance of at least the length of the kite line from any power line. If a kite does become entangled in power lines, it is essential never to attempt to retrieve it yourself. Contacting the local power company to safely remove the kite is the only safe course of action. Using non-conductive materials for kite lines and frames can also reduce the risk of electrical shock. Avoid using metal or wire in your kite construction, and opt for materials like nylon or polyester for the flying line. According to electrical safety experts, electricity can travel down a wet kite line, posing a significant risk even if you are not in direct contact with the power line. Therefore, adhering to these safety precautions is essential for preventing accidents and ensuring a safe kite-flying experience.
10. How Weather Conditions Impact Kite Flying
How do different weather conditions, such as rain or thunderstorms, impact the safety and feasibility of kite flying?
Different weather conditions significantly impact the safety and feasibility of kite flying; rain can make kite lines conductive, increasing the risk of electric shock, while thunderstorms pose a serious lightning hazard. It is crucial to avoid kite flying during these conditions and to always monitor the weather forecast for any signs of impending storms.
In more detail, rain can saturate kite lines, making them conductive and increasing the risk of electric shock if the kite comes into contact with power lines. Lightning is an even greater threat, as kites can act as conductors, attracting lightning strikes and posing a potentially fatal hazard to the flier. According to the National Weather Service, lightning can strike several miles away from a thunderstorm, making it essential to seek shelter at the first sign of thunder or lightning. Even light rain or drizzle can create hazardous conditions, especially if the kite line is made of or contains conductive materials. Additionally, strong winds associated with approaching storms can make it difficult to control the kite, increasing the risk of accidents. Therefore, it is always best to err on the side of caution and avoid kite flying during inclement weather. Checking the weather forecast before heading out and being prepared to pack up at the first sign of changing conditions is crucial for ensuring a safe and enjoyable kite-flying experience.
11. Understanding Wind Windows for Sport Kite Flying
What is a “wind window” in the context of sport kite flying, and how does it affect kite control?
In sport kite flying, a “wind window” refers to the area in the sky where a kite can effectively fly, defined by the reach of the wind given the length of the lines. Understanding the wind window is crucial for controlling the kite because the kite’s position within this window dictates its lift, speed, and responsiveness to the flier’s inputs. Mastering the wind window enables precise maneuvers and maximizes the kite’s performance.
To elaborate, the wind window is essentially a three-dimensional arc extending from the flier, with the wind as its center. The kite can move anywhere within this arc, but its behavior changes depending on its location. When the kite is directly downwind, it experiences the most lift but the least speed. As the kite moves to the edges of the wind window, it gains speed but loses some lift. Skilled kite fliers use this knowledge to perform various tricks and maneuvers. For example, flying the kite close to the edge of the wind window allows for fast, sweeping turns, while keeping it near the center provides more stability and control. According to sport kite enthusiasts, mastering the wind window is the key to unlocking the full potential of a multi-line kite. It requires practice and a keen understanding of how the kite responds to different wind conditions and control inputs. Ultimately, the wind window is a fundamental concept that every sport kite flier must understand to achieve precision and artistry in their flying.
12. Adjusting Kite Lines for Balanced Flight
How can adjusting kite lines ensure balanced flight and prevent spinning?
Adjusting kite lines is essential for ensuring balanced flight and preventing spinning by ensuring that both lines are of equal length and tension. Uneven lines cause the kite to pull more to one side, leading to instability and uncontrolled spinning. Precise line adjustments optimize the kite’s symmetry and responsiveness, resulting in smoother, more predictable flight.
In more detail, even a slight difference in line length or tension can significantly impact a kite’s performance. If one line is shorter than the other, the kite will naturally pull in that direction, causing it to turn or spin uncontrollably. To correct this, fliers must carefully measure and adjust the lines to ensure they are perfectly equal. This can be done by comparing the lines side-by-side and making small adjustments to the knots or connectors. Tension is equally important; if one line is tighter than the other, it will have the same effect as a shorter line, causing the kite to pull in that direction. To balance the tension, fliers can use a line tension meter or simply feel the lines to ensure they are equally taut. According to experienced kite fliers, regular line checks and adjustments are crucial for maintaining optimal kite performance. Over time, lines can stretch or shrink due to wear and tear, so it’s important to inspect them regularly and make any necessary adjustments. By paying close attention to line length and tension, fliers can ensure that their kites fly straight and true, allowing them to perform complex maneuvers with precision and control.
13. The Role of Wind Meters in Kite Flying
How can wind meters assist kite fliers in determining suitable flying conditions?
Wind meters, or anemometers, assist kite fliers by providing accurate measurements of wind speed, allowing them to determine whether the conditions are suitable for their specific kite. By knowing the precise wind speed, fliers can avoid launching kites in conditions that are too weak or too strong, ensuring a safer and more enjoyable experience.
Expanding on this, wind meters provide objective data that takes the guesswork out of assessing wind conditions. These devices measure the speed of the wind in miles per hour, kilometers per hour, or knots, giving fliers a precise reading that they can compare to their kite’s recommended wind range. Many modern wind meters are handheld and digital, providing instant and accurate measurements. Some even include additional features like temperature readings and wind gust tracking. According to kite-flying experts, using a wind meter is particularly important when flying expensive or high-performance kites. These kites are often designed for specific wind conditions, and flying them outside of their recommended range can lead to damage or loss of control. Wind meters also help fliers assess the consistency of the wind. A steady wind is ideal for kite flying, while gusty or turbulent winds can make it difficult to control the kite. By monitoring the wind meter over time, fliers can get a sense of the wind’s stability and make informed decisions about whether to fly.
14. Kite Flying Etiquette in Public Spaces
What are some essential rules of kite flying etiquette to ensure a positive experience in public spaces?
Essential rules of kite flying etiquette include flying in designated areas, maintaining a safe distance from other people and objects, being mindful of kite line placement to avoid tripping hazards, and respecting local regulations regarding kite flying. Following these guidelines helps ensure a positive and safe experience for both the kite flier and the surrounding community.
In more detail, flying in designated areas is crucial because these areas are typically chosen to minimize conflicts with other park users and to avoid hazards like power lines or trees. Maintaining a safe distance from other people and objects is also essential; kites can be unpredictable, and a sudden gust of wind can cause them to veer off course. Keeping a wide berth helps prevent accidents and injuries. Being mindful of kite line placement is important because loose lines can create tripping hazards for pedestrians. Always keep the lines taut and be aware of where they are in relation to other people. Respecting local regulations is also a key aspect of kite flying etiquette. Many parks and public spaces have specific rules about kite flying, such as restrictions on kite size, line length, or flying hours. It’s important to familiarize yourself with these regulations and to abide by them. According to park officials, these rules are in place to protect the safety and enjoyment of all park users. By following these simple guidelines, kite fliers can help ensure that their hobby remains a welcome and enjoyable activity in public spaces.
15. Kite Aerial Photography and Wind Requirements
How does wind speed affect the success of kite aerial photography (KAP)?
Wind speed significantly affects the success of kite aerial photography (KAP) because it determines the stability and altitude of the kite, which directly impacts the quality of the aerial images. Sufficient wind is needed to lift the kite and camera equipment, while stable wind conditions are essential for capturing clear, focused photographs.
In more detail, KAP involves attaching a camera to a kite and using it to take aerial photographs. The ideal wind speed for KAP depends on the size and type of kite, as well as the weight of the camera equipment. Generally, wind speeds between 8 and 18 mph are considered optimal. Too little wind, and the kite won’t be able to lift the camera; too much wind, and the kite will become unstable, resulting in blurry or distorted images. According to KAP experts, using a kite specifically designed for aerial photography is crucial. These kites are typically larger and more stable than recreational kites and are designed to handle the added weight of the camera equipment. Additionally, using a remote control system to adjust the camera angle and shutter speed is essential for capturing the best possible images. Stable wind conditions are also critical for KAP. Gusty or turbulent winds can cause the kite to摇晃 and the camera to move, resulting in blurry images. Choosing a flying location with consistent wind patterns and avoiding flying during inclement weather are essential for successful KAP.
16. Wind Considerations for Kite Festivals
What wind-related factors are considered when organizing and participating in kite festivals?
When organizing and participating in kite festivals, wind-related factors considered include the average wind speed and direction, the consistency of the wind, and the potential for sudden gusts or changes in weather. These factors influence the types of kites that can be flown, the safety of participants and spectators, and the overall success of the event.
Expanding on this, kite festivals often attract a wide range of kite fliers, from recreational enthusiasts to professional performers. The organizers must take into account the varying skill levels and kite types when planning the event. Average wind speed and direction are crucial for determining the suitability of the location and the types of kites that can be flown. If the wind is too weak, many kites won’t be able to get off the ground; if it’s too strong, it can be dangerous for fliers and spectators. The consistency of the wind is also important; gusty or turbulent winds can make it difficult to control kites, leading to accidents or collisions. According to kite festival organizers, monitoring the weather forecast closely in the days and hours leading up to the event is essential. They also need to have contingency plans in place in case of sudden changes in weather, such as strong winds or thunderstorms. These plans may include postponing the event, moving it to a different location, or canceling it altogether. Participants also need to be aware of the wind conditions and to choose kites that are appropriate for the weather. They should also be prepared to bring their kites down if the wind becomes too strong or unpredictable.
17. Recreational Kite Flying: Finding the Right Wind
What are the best strategies for finding the right wind conditions for recreational kite flying?
The best strategies for finding the right wind conditions for recreational kite flying involve checking weather forecasts for wind speed and direction, using a handheld wind meter to assess current conditions, and choosing open locations free from obstructions that could disrupt airflow. Observing local flags and trees can also provide visual cues about wind strength and direction, helping ensure a successful and enjoyable kite-flying experience.
Expanding on these strategies, checking weather forecasts is a crucial first step. Many weather websites and apps provide detailed information about wind speed, direction, and gusts, allowing fliers to plan their outings accordingly. However, forecasts are not always accurate, so it’s also important to assess the conditions on-site. Using a handheld wind meter, or anemometer, provides a precise measurement of the current wind speed, helping fliers determine whether it’s suitable for their kite. Choosing an open location is also essential. Trees, buildings, and other obstructions can disrupt airflow, creating turbulent winds that make it difficult to control the kite. Parks, beaches, and fields are generally good choices, as they offer plenty of open space and relatively consistent wind patterns. Observing local flags and trees can provide visual cues about wind strength and direction. If flags are flapping briskly or trees are swaying noticeably, it indicates a strong wind. If the flags are limp or the trees are still, it indicates a light wind. According to experienced kite fliers, combining these strategies provides the best chance of finding the right wind conditions for a successful and enjoyable kite-flying experience.
18. The Science Behind Kite Flying: A Summary
Can you summarize the science behind kite flying in relation to wind and aerodynamics?
The science behind kite flying revolves around the interplay of wind, lift, drag, and tension. Kites fly because the wind exerts pressure on their surface, creating lift that opposes gravity. The kite’s angle to the wind, along with its shape and the tension in the flying line, determines its stability and altitude. Understanding these aerodynamic principles is crucial for selecting the right kite and flying it successfully in various wind conditions.
Expanding on this, lift is generated when air flows faster over the top surface of the kite than underneath, creating a pressure difference that pushes the kite upward. This is similar to how airplane wings generate lift. Drag is the resistance the kite experiences as it moves through the air. While drag can slow the kite down, it also contributes to its stability by preventing it from accelerating uncontrollably. The tension in the flying line is what connects the kite to the flier and allows them to control its position and angle. By adjusting the tension, the flier can influence the kite’s lift and drag, and steer it in different directions. According to aerodynamic experts, the optimal angle of attack—the angle between the kite’s surface and the incoming wind—is crucial for achieving the right balance between lift and drag. Too steep an angle, and the kite stalls; too shallow, and it won’t generate enough lift. Understanding these principles allows kite fliers to choose the right kite for the wind conditions, adjust the bridle to optimize performance, and steer the kite with precision and control.
19. Expert Tips for Kite Flying in Various Winds
What expert tips can enhance kite-flying experiences in different wind conditions?
Expert tips for enhancing kite-flying experiences include adjusting the bridle for optimal lift in light winds, adding tails for stability in strong winds, using appropriate launching techniques based on wind strength, and always prioritizing safety by avoiding power lines and monitoring weather changes. These adjustments, combined with experience and observation, can significantly improve kite flying success and enjoyment.
In more detail, adjusting the bridle involves changing the point where the flying line attaches to the kite. In light winds, moving the bridle point lower (closer to the tail) increases the angle of attack, allowing the kite to catch more wind and generate more lift. In strong winds, moving the bridle point higher (closer to the top) reduces the angle of attack, preventing the kite from being overpowered. Adding tails increases drag, which helps stabilize the kite in strong winds and prevent it from spinning or wobbling. The length and weight of the tail can be adjusted to fine-tune the kite’s stability. Using appropriate launching techniques is also crucial. In light winds, having a helper run downwind while holding the kite can provide the initial lift needed to get it airborne. In strong winds, a simple ground launch is often sufficient. Prioritizing safety is always paramount. Avoid flying kites near power lines, as contact with electrical wires can be fatal. Monitor weather changes closely, and be prepared to bring the kite down at the first sign of increasing winds or approaching storms. According to experienced kite fliers, these tips, combined with practice and observation, can significantly enhance kite-flying experiences in various wind conditions.
20. Kite Maintenance for Optimal Performance
How does proper kite maintenance contribute to optimal performance and longevity?
Proper kite maintenance contributes to optimal performance and longevity by preventing damage, ensuring structural integrity, and maintaining aerodynamic efficiency. Regular inspections, cleaning, and careful storage can significantly extend the life of a kite and ensure it performs at its best every time it’s flown.
In more detail, regular inspections allow you to identify and address any potential problems before they become major issues. Check the kite’s frame for cracks, bends, or loose connections. Inspect the sail for tears, rips, or frayed edges. Examine the bridle and flying lines for wear and tear. Cleaning the kite after each use helps remove dirt, sand, and other debris that can damage the sail and frame. Use a soft cloth and mild soap to gently clean the kite, and allow it to dry completely before storing it. Careful storage is also essential. Store the kite in a dry, protected place, away from direct sunlight and extreme temperatures. Avoid folding the kite tightly, as this can damage the sail and frame. According to kite manufacturers, following these maintenance tips can significantly extend the life of a kite and ensure it performs at its best every time it’s flown. A well-maintained kite is not only more reliable but also more enjoyable to fly, as it responds better to control inputs and flies more smoothly and predictably.
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