Weight has nothing to do with how fast things fall, only wind resistance. Take two 16 ounce soda bottles, open one drink eight ounces. The unopened bottle is twice as heavy as the opened bottle. Close the bottle you just drank half of and drop them at the same time from a tall building, they will hit the ground at the same time. That is because gravity is a constant and the velocity of any falling object is 9.8 meters per second/per second.
Acceleration is the same for all objects at m/s^2 (32.2 ft/s^2 or 22 mph) for each second of its descent. Thus, ignoring air resistance an object starting from rest will attain a velocity of 9.81 m/s after one second, 19.62 m/s after two seconds, and so on. If you are wondering why a hammer hit the ground before a feather, look at it's aerodynamic qualities, it has nothing to do with its weight. Air resitance depends on the
coefficient of drag and has nothing to do with weight.
Yes. Because paper is much much lighter than a bowling ball so if you drop them the paper will take atleast 1.3 seconds to fall and a bowling ball will take atleast 0.5 seconds.
No, the air inside a ball does not affect how fast it falls. The rate at which an object falls is determined by gravity and the air resistance it encounters, not the properties of the air contained within the object.
When air resistance balances the weight of an object that is falling, the object has reached terminal velocity. At this point, the object falls at a constant speed without accelerating further due to the opposing forces being balanced.
The shape of an object affects the rate at which it falls due to differences in air resistance. Objects with larger surface areas experience more air resistance and fall more slowly than objects with smaller surface areas. Objects with streamlined shapes experience less air resistance and fall more quickly.
When you drop an object, it falls due to gravity. The speed at which it falls depends on the object's mass and the force of gravity. If there is no air resistance, all objects fall at the same rate regardless of size or weight, as described by the acceleration due to gravity.
wind resistance, and gravity, mass does not in any way contribute to how an object falls.
Yes. Because paper is much much lighter than a bowling ball so if you drop them the paper will take atleast 1.3 seconds to fall and a bowling ball will take atleast 0.5 seconds.
Weight of an object is usually the downward force that it exerts which results in its motion when an external force is absent to balance it off completely. (free fall) or partially as in our case of air resistance in the question.Air resistance offers a force , or pressure (force per area) on the object that falls and effectively reduces the Weight of an object to some extent..Air resistance affects weight and it is of little importance to discuss the vice versa
No, the air inside a ball does not affect how fast it falls. The rate at which an object falls is determined by gravity and the air resistance it encounters, not the properties of the air contained within the object.
When air resistance balances the weight of an object that is falling, the object has reached terminal velocity. At this point, the object falls at a constant speed without accelerating further due to the opposing forces being balanced.
The shape of an object affects the rate at which it falls due to differences in air resistance. Objects with larger surface areas experience more air resistance and fall more slowly than objects with smaller surface areas. Objects with streamlined shapes experience less air resistance and fall more quickly.
When you drop an object, it falls due to gravity. The speed at which it falls depends on the object's mass and the force of gravity. If there is no air resistance, all objects fall at the same rate regardless of size or weight, as described by the acceleration due to gravity.
The rate at which an object falls through air is affected by factors such as its weight, the air resistance acting on it, its shape, and its surface area. Heavier objects generally fall faster due to gravity, while air resistance can slow down the fall of objects with larger surface areas or irregular shapes.
The factors that affect the ability of gravity to do work include the distance the object falls, the mass of the object, and the presence of other forces that may oppose gravity, such as friction or air resistance. The work done by gravity is determined by the height through which the object falls and the force of gravity acting on the object.
When an object falls down, it moves towards the Earth's center due to the force of gravity acting upon it. The speed at which it falls depends on the object's weight and the resistance it encounters from the air.
Air resistance slows down the speed at which an object falls by exerting a force in the opposite direction of its motion. As the object falls, it pushes against the air molecules, creating a drag force that counteracts the force of gravity. This results in a reduced acceleration and overall slower descent.
Weight does not affect the speed at which an object falls because all objects experience the same acceleration due to gravity, regardless of their weight. This acceleration is approximately 9.8 m/s^2 on Earth. The force of gravity acting on the object is proportional to its weight, but it is cancelled out by the object's inertia and acceleration, resulting in all objects falling at the same rate.