Drag.
This is an example of drag, which is a type of aerodynamic force that opposes an object's motion through a fluid like air. While it may seem like friction, it is actually the result of the air pushing against the airplane as it moves through the atmosphere.
The formula for calculating the coefficient of static friction on an inclined plane is s tan(), where s is the coefficient of static friction and is the angle of inclination of the plane.
Grass has high friction because of its rough texture and the way its blades interlock with each other. This increases the resistance when objects move across it, creating more friction compared to smoother surfaces.
yes,you can see friction. think of when a plane is about to break the speed of sound, ok now as the plane reaches speeds of over 700 mph you start to see a white circle around it, that is the air rubbing against the plane so yes you can see friction
Friction will waste more work on longer planes because the force of friction acts against the direction of motion for a longer period of time. This results in more work being done to overcome friction and move the object along the longer plane.
This is an example of drag, which is a type of aerodynamic force that opposes an object's motion through a fluid like air. While it may seem like friction, it is actually the result of the air pushing against the airplane as it moves through the atmosphere.
The friction on the plane is the friction produced due to air.
A plane moving through air. Air is causing friction, A boat moving through water .Water causes friction.
An example of an inclined plane is a ramp, slanted road, or a slide. An inclined plane is a surface that is at an angle against a horizontal surface.
Friction is not useful when ever we do not want it. Examples would be when two materials are rubbing against one another. The friction of ropes in pulleys eventually causes wear on both; friction of shoes or straps against the body causes blisters; friction airplanes travelling through the air - friction causes the plane to get hot; the moving parts of an engine get hot from friction...
POMBO
The angle of friction is defined as the angle of a plane where a body placed on the plane will start to slide.
The formula for calculating the coefficient of static friction on an inclined plane is s tan(), where s is the coefficient of static friction and is the angle of inclination of the plane.
Grass has high friction because of its rough texture and the way its blades interlock with each other. This increases the resistance when objects move across it, creating more friction compared to smoother surfaces.
Yes they are equal because they are both forces and when the thrust of planes (for example) are high in the air, the thrust pulls the plane forward. While the friction force pushes the plane forward. Think of it as someone pushing you towards something that you don't want to go into, that is the same as thrust and friction forces because the thrust is pushing you forward and the friction force is the balance of it all.
yes,you can see friction. think of when a plane is about to break the speed of sound, ok now as the plane reaches speeds of over 700 mph you start to see a white circle around it, that is the air rubbing against the plane so yes you can see friction
(Coefficient of friction of plane ab) + 2(Coefficient of friction of plane bc) = 1 Coefficient of friction of plane ab = Coefficient of friction of plane bc = 1/3 = 0.33333......