The weight of an object is maximum in air, as air offers more resistance to the weight of the object compared to water, vacuum, or oil.
The buoyant force is at its maximum when the object is fully submerged in a fluid, pushing against the maximum amount of fluid with its volume. This is because the buoyant force is equal to the weight of the fluid displaced by the object, and displacing the maximum amount of fluid results in the maximum buoyant force.
Yes, the maximum speed of a free falling object is known as terminal velocity. This is the point at which the force of air resistance balances the force of gravity, resulting in a constant velocity. Terminal velocity can vary depending on the object's shape, size, and mass.
No, the weight of a body remains the same regardless of its location on Earth. Weight is determined by the mass of the object and the strength of gravity, which is relatively constant across the Earth's surface.
An object weighs less in air compared to its weight in vacuum or hydrogen, as air exerts a buoyant force on the object. The object weighs more in water than in air due to water's buoyant force. In a vacuum or hydrogen, where there is no buoyant force, the object's weight would be the same as its actual weight.
The weight of an object is maximum in air, as air offers more resistance to the weight of the object compared to water, vacuum, or oil.
This Bissell vaccum weighs 28 pounds when it comes to the total weight of the entire vaccum.
Because there's no influence from buoyancy in vacuum.
The buoyant force is at its maximum when the object is fully submerged in a fluid, pushing against the maximum amount of fluid with its volume. This is because the buoyant force is equal to the weight of the fluid displaced by the object, and displacing the maximum amount of fluid results in the maximum buoyant force.
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No. In a vacuum, the weight of an object will be the product their mass, times the gravity. In other words, objects with different masses will have different weights.
There is a maximum weight limit for parachuting. The maximum weight limit for tandem students is 220 lbs., and the maximum weight limit for AFF students is 240 lbs.
Yes, the maximum speed of a free falling object is known as terminal velocity. This is the point at which the force of air resistance balances the force of gravity, resulting in a constant velocity. Terminal velocity can vary depending on the object's shape, size, and mass.
No, the weight of a body remains the same regardless of its location on Earth. Weight is determined by the mass of the object and the strength of gravity, which is relatively constant across the Earth's surface.
There is no maximum weight that a planet can get to. A planet's weight depends on its mass and the gravity it has.
An object weighs less in air compared to its weight in vacuum or hydrogen, as air exerts a buoyant force on the object. The object weighs more in water than in air due to water's buoyant force. In a vacuum or hydrogen, where there is no buoyant force, the object's weight would be the same as its actual weight.
The maximum value of static friction is typically greater than the maximum value of kinetic friction. Static friction is the force required to overcome the initial resistance of an object at rest, while kinetic friction is the force required to keep an object in motion.