The forces acting on a plane flying at a constant height include lift, weight, thrust, and drag. Lift counters weight to keep the plane in the air, and thrust is provided by the engines to overcome drag and maintain speed.
The forces acting on a plane flying at a steady height are lift, weight, thrust, and drag. Lift is generated by the wings and opposes the weight of the aircraft. Thrust is produced by the engines and counters drag, which is caused by air resistance. At a steady height, these forces are balanced.
When a plane is flying at a steady speed, the forces acting on it are balanced. The main forces involved are thrust (from the engines), drag (air resistance), lift (from the wings), and weight (gravity pulling the plane down). These forces work together to keep the plane moving at a constant speed and altitude.
The thrust from the propellers provides the forward force needed to overcome the drag and maintain a constant speed. The lift generated by the wings counters the force of gravity to keep the plane at a constant altitude. As long as these forces are balanced, the plane will continue to fly in a straight path at a constant speed.
The plane will fly at steady height and speed :)
There are two forces on the bomb when it is dropped; horizontal, and vertical. The vertical force is gravity, and the horizontal force is the velocity of the plane when the bomb is dropped. In order to determine how far away the bomb will drop from the initial point of release, it is necessary to know the height that the plane is at, and the velocity of the plane, which is also the initial horizontal velocity of the bomb (it is constant, neglecting air resistence.)
Gravity and lift.
The forces acting on a plane flying at a steady height are lift, weight, thrust, and drag. Lift is generated by the wings and opposes the weight of the aircraft. Thrust is produced by the engines and counters drag, which is caused by air resistance. At a steady height, these forces are balanced.
When a plane is flying at a steady speed, the forces acting on it are balanced. The main forces involved are thrust (from the engines), drag (air resistance), lift (from the wings), and weight (gravity pulling the plane down). These forces work together to keep the plane moving at a constant speed and altitude.
Sketching it is impossible here but think of the ground as the plane and the endless flight of a bee (the bee-line) flying at a constant height as the line which does not intersect it.
If weight and lift aren't equal, then there's a net vertical force on the plane, and it must have vertical acceleration.
The thrust from the propellers provides the forward force needed to overcome the drag and maintain a constant speed. The lift generated by the wings counters the force of gravity to keep the plane at a constant altitude. As long as these forces are balanced, the plane will continue to fly in a straight path at a constant speed.
The plane will fly at steady height and speed :)
38 thousand feet.
150 MPH
There are two forces on the bomb when it is dropped; horizontal, and vertical. The vertical force is gravity, and the horizontal force is the velocity of the plane when the bomb is dropped. In order to determine how far away the bomb will drop from the initial point of release, it is necessary to know the height that the plane is at, and the velocity of the plane, which is also the initial horizontal velocity of the bomb (it is constant, neglecting air resistence.)
When a plane is flying, lift and weight must be balanced to keep the plane level and maintain altitude. Lift is generated by the wings and opposes the force of weight, which is the gravitational force acting on the plane.
He kept a record of the time, distance and height of the flight.