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∙ 7y agoThe net force on the apple is 0.9 N. This is calculated by subtracting the force of air resistance (0.1 N) from the gravitational force (1 N).
Yes, gravitational force is acting on a person who falls off a cliff. The force of gravity accelerates the person downwards towards the Earth until another force, like air resistance or the ground, counteracts it.
True. The overall net force acting on a falling leaf is due to the gravitational force pulling it downward and the air resistance pushing against it as the leaf falls through the air.
The gravitational attraction of an apple on Earth is approximately 1 Newton, which is equivalent to the weight of the apple. This force is a result of the gravitational pull between the apple and Earth.
The force that pulls the apple down is gravity. When the apple is at rest on the tree, the forces are balanced between gravity pulling the apple down and the tree branch pushing up on the apple. Once the apple falls, gravity becomes the unbalanced force causing it to accelerate towards the ground.
The magnitude of the gravitational force exerted by the apple on the Earth is equal to the force exerted by the Earth on the apple, which is 2 N in this case (according to Newton's third law of motion). This force is responsible for the apple's weight and is equal in magnitude but opposite in direction for both bodies.
the gravitational attraction of apple is sun.
The leaf does not fall straight down. It falls slowly because of air resistance. The air provides upward force. The upward force on the apple is negligible.
Yes, gravitational force is acting on a person who falls off a cliff. The force of gravity accelerates the person downwards towards the Earth until another force, like air resistance or the ground, counteracts it.
True. The overall net force acting on a falling leaf is due to the gravitational force pulling it downward and the air resistance pushing against it as the leaf falls through the air.
The gravitational attraction of an apple on Earth is approximately 1 Newton, which is equivalent to the weight of the apple. This force is a result of the gravitational pull between the apple and Earth.
he discover by.......... when he was sitting under an apple tree,he saw that apple had fallen down by the gravitational force by this he came to know that extra force(gravitational force)had pushed the apple down
The force that pulls the apple down is gravity. When the apple is at rest on the tree, the forces are balanced between gravity pulling the apple down and the tree branch pushing up on the apple. Once the apple falls, gravity becomes the unbalanced force causing it to accelerate towards the ground.
The magnitude of the gravitational force exerted by the apple on the Earth is equal to the force exerted by the Earth on the apple, which is 2 N in this case (according to Newton's third law of motion). This force is responsible for the apple's weight and is equal in magnitude but opposite in direction for both bodies.
The terms "gravitational force" and "force of gravity" are interchangeable and both refer to the same force exerted on objects due to gravity. When an apple is falling, the force of gravity (gravitational force) is indeed acting on it, causing it to accelerate towards the Earth.
Air resistance is the force that opposes the motion of an object moving through the air, such as a skydiver falling through the sky or a ball thrown through the air. Gravitational force is the force of attraction between two objects with mass, like the force that keeps planets in orbit around the sun or objects from floating in space.
An example of gravitational force is the force that pulls objects towards the center of the Earth. This force is responsible for objects falling to the ground when dropped.
When a leaf falls from a tree, the force acting on it is primarily gravity. As the leaf is no longer attached to the tree, the only force acting on it is the gravitational force pulling it down towards the Earth.