The force that counteracts the weight of an airplane is called lift. Lift is generated by the wings of the airplane as it moves through the air. The amount of lift produced needs to be equal to or greater than the weight of the airplane to keep it in the air.
The force that counteracts the weight of an airplane is lift, which is generated by the wings as the airplane moves through the air. Lift opposes the force of gravity acting on the airplane, allowing it to remain airborne.
The upward force produced by an airplane is called lift. Lift is generated by the wings as the airplane moves through the air. It counteracts the force of gravity and allows the airplane to stay airborne.
Lift: Generated by the wings and counteracts the force of gravity, allowing the airplane to stay airborne. Weight: Force of gravity acting on the airplane's mass, pulling it downwards towards the earth. Thrust: Generated by the engines and propels the airplane forward through the air. Drag: Resistance force opposing the airplane's forward motion, caused by friction between the airplane and the air it moves through.
If the aircraft's altitude is constant, that means its vertical speed is zero. That indicates zero vertical component of any acceleration, which in turn implies that vertical force components are balanced. So you can say with assurance that the sum of (lift produced by the wings) PLUS (any vertical component of thrust due to a positive angle of attack) is equal to the airplane's weight (gravitational force on it).
The force that counteracts a contact force to prevent objects from passing through surfaces is called the normal force.
The force that counteracts the weight of an airplane is lift, which is generated by the wings as the airplane moves through the air. Lift opposes the force of gravity acting on the airplane, allowing it to remain airborne.
The upward force produced by an airplane is called lift. Lift is generated by the wings as the airplane moves through the air. It counteracts the force of gravity and allows the airplane to stay airborne.
The weight of an aircraft counteracts the lift produced by an aircraft. The heavier an aircraft weighs the greater the lift needed to get off the ground.
Lift: Generated by the wings and counteracts the force of gravity, allowing the airplane to stay airborne. Weight: Force of gravity acting on the airplane's mass, pulling it downwards towards the earth. Thrust: Generated by the engines and propels the airplane forward through the air. Drag: Resistance force opposing the airplane's forward motion, caused by friction between the airplane and the air it moves through.
If the aircraft's altitude is constant, that means its vertical speed is zero. That indicates zero vertical component of any acceleration, which in turn implies that vertical force components are balanced. So you can say with assurance that the sum of (lift produced by the wings) PLUS (any vertical component of thrust due to a positive angle of attack) is equal to the airplane's weight (gravitational force on it).
The force that counteracts a contact force to prevent objects from passing through surfaces is called the normal force.
Lift generated by the wings of an airplane counteracts the force of gravity, allowing the plane to fly. As the plane moves forward, air flows over the wings, creating a pressure difference that results in lift. This force allows the aircraft to become airborne and stay aloft.
When an airplane is still on the ground, the main forces acting on it are the gravitational force acting downwards and the normal force exerted by the ground acting upwards to support the weight of the airplane. There are typically no aerodynamic forces acting on the airplane until it starts moving.
lift, thrust, drag and weight(gravity)
The force of buoyancy is responsible for the difference in weight between an object in air and water. In water, the upward force of buoyancy counteracts some of the object's weight, making it feel lighter. This is due to the water pushing against the object with an upward force equal to the weight of the water displaced by the object.
When a body is immersed in a liquid, it experiences an upthrust force equal to the weight of the liquid displaced, known as buoyancy. This force counteracts the weight of the body, making it feel lighter in the liquid. The net force acting on the body is the difference between its weight and the buoyant force.
Yes, the force that supports the weight of an object placed on a surface at rest, such as a book on a tabletop, is called the normal force. It acts perpendicular to the surface and counteracts the force of gravity to keep the object in equilibrium.