No, objects have the same weight in a vacuum as they do in air. Weight is a measure of the force of gravity acting on an object, which is independent of the surrounding air or lack thereof. However, objects feel lighter in a vacuum because there is no air resistance to oppose their motion.
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.
In a vacuum, all objects fall at the same rate regardless of weight due to gravity. However, in the presence of air resistance, heavier objects are less affected by air resistance than lighter objects, allowing them to fall faster. This is because air resistance is proportional to the surface area of the object, while weight is proportional to mass.
In a vacuum, all objects fall at the same rate regardless of weight due to gravity. However, in the presence of air resistance, heavier objects overcome this resistance more easily and reach the ground faster. This is because heavier objects have more momentum and force to push through the air.
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.
Without air resistance, heavier and lighter object fall at the same speed. More precisely, they accelerate at the same speed - near Earth's surface that would be 9.8 meters/second2. If air resistance is significant, heavier objects tend to have less air resistance, compared to their weight, so they will usually fall faster.
It depends on their air resistance, in a vacuum NO.
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.
In a vacuum, all objects fall at the same rate regardless of weight due to gravity. However, in the presence of air resistance, heavier objects are less affected by air resistance than lighter objects, allowing them to fall faster. This is because air resistance is proportional to the surface area of the object, while weight is proportional to mass.
In a vacuum, all objects fall at the same rate regardless of weight due to gravity. However, in the presence of air resistance, heavier objects overcome this resistance more easily and reach the ground faster. This is because heavier objects have more momentum and force to push through the air.
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.
Without air resistance, heavier and lighter object fall at the same speed. More precisely, they accelerate at the same speed - near Earth's surface that would be 9.8 meters/second2. If air resistance is significant, heavier objects tend to have less air resistance, compared to their weight, so they will usually fall faster.
In a vacuum, all objects fall at the same rate regardless of mass due to gravity. This is known as the equivalence principle. However, in environments with air resistance, lighter objects may experience more air resistance and fall slower compared to heavier objects due to their surface area-to-mass ratio.
No, both 1kg of lead and 1kg of feather would weigh the same in a vacuum because weight depends on mass, and both objects have a mass of 1kg. Gravity affects weight, but in a vacuum, there is no air to provide resistance, so both objects would fall at the same rate.
No. Weight = mass x gravity, so for the same mass, you get the same weight.
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.
In a vacuum, all objects fall at the same rate of acceleration regardless of their weight. This is due to the principle of gravity. However, in the presence of air resistance, heavier objects may fall faster than lighter objects due to their ability to overcome air resistance more effectively.
In a vacuum or in the absence of air resistance, all objects fall at the same rate regardless of their mass due to gravity. This is known as the principle of equivalence. In a real-world scenario where air resistance is present, heavier objects may accelerate more due to having a higher force of gravity acting on them, but eventually both objects will reach the same terminal velocity due to air resistance.