In a vacuum all objects fall at the same rate. In air the shape and density of an object can effect its rate due to air resistance. However, a Bowling ball and a basket ball would fall at virtually the same rate.
A simple experiment:
Get a pen and piece of paper. Hold them both out in front of you and drop them. Which lands first? Now crumple the paper up into a ball as tight as you can. Drop them both again. Did they both land at the same time?
(Simple Answer)
No, they don`t.
Aristotle believed that heavy objects fall faster than lighter ones. This idea was later proven wrong by Galileo's experiments, which showed that in a vacuum, objects of different weights fall at the same rate.
In the absence of air resistance, heavy objects and light objects fall to the ground at the same rate. This is because all objects experience the same acceleration due to gravity, regardless of their mass. However, factors like air resistance can affect the rate at which objects fall.
depends on weight of object and wind strength.normally heavy objects will drop down faster than lighter objects.
They don't. All objects fall at the same rate of speed because of weight.
No lighter things do not fall faster than heavier things. In a vacuum they will fall at the same speed. Normally the heavier thing will fall down faster because of its weight. Sometimes the lighter thing falls faster depending on the air resistance.
They don't. The basic physics behind the situation says that all objects fall together, regardless of their mass, weight, race, color, creed, national origin, or political affiliation. In the reral world, especially on Earth, we occasionally see things falling at different rates.
Faulse
Assuming the parachutes are the same size, then yes.
Objects that fall really fast include heavy items like bowling balls or anvils, as they are less affected by air resistance compared to lighter objects. In a vacuum, all objects fall at the same rate regardless of their mass due to the absence of air resistance. Additionally, phenomena such as raindrops or meteorites can also fall quickly when influenced by gravity.
Lighter objects fall slower than heavier objects because they have less mass, which results in less gravitational force acting on them. This means they experience less acceleration and take longer to reach the ground compared to heavier objects. The acceleration due to gravity is the same for both objects, but the heavier object requires more force to overcome its weight and accelerate at the same rate.
In a vacuum, all objects fall at the same rate regardless of their weight due to gravity. However, in real-world conditions with air resistance, lighter objects tend to fall slower than heavier objects because air resistance affects lighter objects more.
In a vacuum or frictionless environment, all objects, regardless of weight, will fall at the same rate due to gravity. This is described by the principle of equivalence, where the acceleration of an object due to gravity is independent of its mass. However, in real-world scenarios with air resistance, lighter objects may experience more air resistance and fall slower than heavier objects.