You would want to maximize area of contact, and for air friction you would want to maximise the area facing the wind, or direction of motion,
Either way the most friction is had from a sheet, provided it can be kept in the right orientation.
An object with a large surface area and irregular shape would experience the most fluid friction. This is because more surface area comes into contact with the fluid, creating more opportunities for friction to occur due to the irregularities in the object's shape.
Changing the shape of an object can affect friction and air resistance. For friction, the surface area in contact with another surface can increase or decrease, altering the friction force. For air resistance, a more streamlined shape will experience less resistance compared to a less streamlined shape due to differences in how air flows around the object.
Yes, objects with a streamlined shape experience less fluid friction compared to objects with a less aerodynamic shape. The streamlined shape helps in reducing drag by allowing the fluid to flow smoothly around the object, thereby minimizing resistance.
A ball can reduce friction by converting sliding friction into rolling friction. When a ball rolls on a surface, the point of contact continuously changes, reducing the overall friction experienced. Additionally, the round shape of a ball helps to distribute the force more evenly, further reducing friction.
The size and shape of particles can affect internal friction by influencing how easily they can slide past each other. Smaller, round particles have less friction due to their smoother surfaces, while larger, irregular particles can create more friction as they interlock and resist movement. Different sizes and shapes of particles can result in varying degrees of internal friction within a material.
Friction.
An object with a large surface area and irregular shape would experience the most fluid friction. This is because more surface area comes into contact with the fluid, creating more opportunities for friction to occur due to the irregularities in the object's shape.
Changing the shape of an object can affect friction and air resistance. For friction, the surface area in contact with another surface can increase or decrease, altering the friction force. For air resistance, a more streamlined shape will experience less resistance compared to a less streamlined shape due to differences in how air flows around the object.
Your mom has the most friction. (:
no
yes
Yes, objects with a streamlined shape experience less fluid friction compared to objects with a less aerodynamic shape. The streamlined shape helps in reducing drag by allowing the fluid to flow smoothly around the object, thereby minimizing resistance.
rough materials can generate a lot of friction
As water in the stream channel flows, it encounters friction; the friction slows the forward movement. The shape,size, and roughness affect the amount of friction. High friction slows the stream significantly.
Because of the shape of airplane wings, friction assists in moving the craft forward. This friction creates lift on the wing helping the plane stay in the air.
The most common features in modern cars that help to reduce air friction is the streamlined design of the bumpers and spoilers. The streamlined shape of fast cars also helps to reduce drag.
A ball can reduce friction by converting sliding friction into rolling friction. When a ball rolls on a surface, the point of contact continuously changes, reducing the overall friction experienced. Additionally, the round shape of a ball helps to distribute the force more evenly, further reducing friction.