When air resistance becomes equal to gravity, the object will reach its terminal velocity and stop accelerating. At this point, the forces are balanced and the object will maintain a constant speed.
The cumulative effect of gravity and air resistance determines an object's terminal velocity. Initially, gravity accelerates the object, while air resistance acts in the opposite direction. As the object gains speed, air resistance increases until it becomes equal in magnitude to the force of gravity. At this point, the net force on the object is zero, resulting in a constant terminal velocity where the forces are balanced.
When air resistance is greater than the force of gravity acting on an object, it will slow down the object's descent. This is because the air resistance force counteracts the force of gravity, reducing the acceleration of the object as it falls.
The main forces acting on a falling object are gravity and air resistance. Gravity pulls the object downward toward the ground, while air resistance, or drag, slows down its descent by pushing upward against it. The net force of gravity minus air resistance determines the object's overall acceleration as it falls.
When gravity and air resistance of a falling object are balanced, it is called terminal velocity. At this point, the object falls at a constant speed because the force of gravity pulling it down is equal to the force of air resistance pushing back against it.
The two forces acting on a falling object are gravity and air resistance. Gravity pulls the object downward, while air resistance acts in the opposite direction to slow down the object as it falls through the air.
The cumulative effect of gravity and air resistance determines an object's terminal velocity. Initially, gravity accelerates the object, while air resistance acts in the opposite direction. As the object gains speed, air resistance increases until it becomes equal in magnitude to the force of gravity. At this point, the net force on the object is zero, resulting in a constant terminal velocity where the forces are balanced.
The forces that affect the rate of a falling object are Gravity and Air Resistance. Gravity affects the speed and the velocity of the object by speeding it up as it falls closer to the earth, and Air resistance works against the object pushing against it.
When air resistance is greater than the force of gravity acting on an object, it will slow down the object's descent. This is because the air resistance force counteracts the force of gravity, reducing the acceleration of the object as it falls.
The main forces that tend to slow an object down on Earth are friction, air resistance, and gravity. Friction occurs when the object moves against a surface, air resistance is the drag force experienced as an object moves through the air, and gravity pulls the object downward.
The main forces acting on a falling object are gravity and air resistance. Gravity pulls the object downward toward the ground, while air resistance, or drag, slows down its descent by pushing upward against it. The net force of gravity minus air resistance determines the object's overall acceleration as it falls.
When gravity and air resistance of a falling object are balanced, it is called terminal velocity. At this point, the object falls at a constant speed because the force of gravity pulling it down is equal to the force of air resistance pushing back against it.
The two forces acting on a falling object are gravity and air resistance. Gravity pulls the object downward, while air resistance acts in the opposite direction to slow down the object as it falls through the air.
the acceleration of gravity is 9.8 m/s
The potential energy of the elasticity of the catapult material, air resistance, gravity.
When an object is falling, it accelerates, so it is speeding up. The faster it goes, the more air resistance there is on the object. Eventually, the force of the air resistance pushing up on the object will equal the force of gravity pushing down on the object. The forces on the object are balanced (they cancel out), so it will have no acceleration. This causes terminal velocity; the object is not speeding up anymore. When the forces on an object are balanced, it has no acceleration. This does not mean it has no velocity, it just means that the velocity is not changing (it does not speed up or slow down.)
Air resistance has no effect on gravity. The force of friction due to air resistance against a falling object balances part or all of the gravitational force, depending on the object's shape and speed through the air ... just as your hand or a rubber band attached to the object would ... but the full force of gravity is still there.
If air resistance becomes equal to the weight of the object, the object will reach a terminal velocity and stop accelerating due to a balanced force situation. It will continue to fall at a constant speed until it reaches the ground.