To reduce drag, you can streamline the shape of the object, minimize surface roughness, and reduce the frontal area exposed to the flow of air or water. Additionally, reducing speed can also help decrease drag forces.
To reduce drag, you can: Streamline the shape of the object to minimize resistance. Smoothen the surface to reduce friction. Eliminate unnecessary protrusions or features that contribute to drag.
Airplanes are designed to reduce drag by incorporating streamlined shapes and smooth surfaces to minimize air resistance. Winglets at the end of wings help reduce the formation of vortexes that create drag. Advanced materials and coatings are also used to reduce skin friction drag on the aircraft's surface.
An object can be designed to reduce air friction or drag by improving its aerodynamics, such as streamlining its shape to minimize resistance. Additionally, adding smooth or flatter surfaces can help reduce turbulence and drag. Employing materials with low friction coefficients can also help reduce air resistance.
You can reduce drag by streamlining the object's shape to minimize air resistance, smoothing out surfaces to reduce turbulent flow, and minimizing cross-sectional area to decrease frontal area exposed to the airflow. Additionally, using materials that are slick and reduce friction with the air can also help reduce drag.
Drag is useful in aeronautics and automotive design to reduce air resistance and improve fuel efficiency. In sports such as cycling and skiing, minimizing drag can increase speed and performance. Drag is also important in the design of structures to ensure stability and reduce wind loads.
To reduce drag, you can: Streamline the shape of the object to minimize resistance. Smoothen the surface to reduce friction. Eliminate unnecessary protrusions or features that contribute to drag.
don't drag it copy and paste it
it doesn't
to reduce drag
A car will have aerodynamic features to reduce forces of friction and drag. A sleek body style will help do this.
To decrease drag, streamline the shape of objects to reduce air resistance, such as using aerodynamic designs in vehicles and aircraft. Smooth surfaces can also minimize friction, so applying coatings or using materials that reduce roughness can help. Additionally, optimizing the position and orientation of objects relative to the flow of air or water can further reduce drag. Finally, minimizing protrusions and using fairings or covers can improve overall efficiency.
Airplanes are designed to reduce drag by incorporating streamlined shapes and smooth surfaces to minimize air resistance. Winglets at the end of wings help reduce the formation of vortexes that create drag. Advanced materials and coatings are also used to reduce skin friction drag on the aircraft's surface.
using controller to control it.. decrease weight to reduce drag
to reduce drag you must make your shape more streamlined and more aerodynamic this meaning reducing drag so that there is less resistance therefore creating speed
Airplanes try to reduce drag so they can cut back on fuel costs, and shave time off their route.
to reduce air resistance or drag.
depends on the sport in question