The buoyancy force acting on an object is equal to the weight of the water displaced by the object. If a boat displaces 600 kg of water, the buoyancy force will be equal to the weight of 600 kg of water (water density x volume of water displaced x gravity).
I assume you meant "BOAT"A boat floats because it displaces water... put a boat in the water and it sinks into the surface of the water...the part of the boat beneath water level pushes water out of the way.When the weight of the water pushed out of the way is the same as the weight of the boat, the boat can sink no further.Tho made of steel or other heavy materials, naval architects calculate displacement ( the weight of water the ship's hull pushes out of the way ) as long as the ship weighs Less than the water it displaces, it will safely float.The difference between the weight of the boat and the weight of water it displaces will determine how much Cargo a boat can carry.
When an object displaces as much water as its weight, it is known as being in a state of neutral buoyancy. This phenomenon allows objects to remain suspended at a certain depth in a fluid, neither sinking nor floating.
The term you are referring to is "freeboard." Freeboard is the distance from the waterline to the deck of a boat, which determines how much weight a boat can carry without submerging the deck or taking on water. A boat's freeboard is crucial for buoyancy and stability in the water.
The amount of water needed to float a ship depends on the ship's weight or displacement. Ships with greater displacement require more water to provide the necessary buoyancy to stay afloat. The concept of buoyancy, based on Archimedes' principle, ensures that a ship displaces an equal volume of water to its own weight in order to stay afloat.
A boat's shape, including its hull design, affects its buoyancy, stability, and resistance to water flow. The shape helps displace water efficiently, reduce drag, and improve maneuverability, allowing the boat to travel smoothly and efficiently through the water.
How much weight a boat will hold depends on the volume of the boat. This is called displacement. displacement is exactly equal to the weight of the water the boat displaces, that is the boat makes a hole in the water. The volume of that hole times the weight of water (64 lbs for salt water, 62.4 for fresh water) - displacement. The volume of water displaces is equal to the volume of the boat.
I assume you meant "BOAT"A boat floats because it displaces water... put a boat in the water and it sinks into the surface of the water...the part of the boat beneath water level pushes water out of the way.When the weight of the water pushed out of the way is the same as the weight of the boat, the boat can sink no further.Tho made of steel or other heavy materials, naval architects calculate displacement ( the weight of water the ship's hull pushes out of the way ) as long as the ship weighs Less than the water it displaces, it will safely float.The difference between the weight of the boat and the weight of water it displaces will determine how much Cargo a boat can carry.
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An old chestnut this one. Whilst in the boat, the anchor displaces its weight in water, when under the water and lying on the bottom, it only displaces its volume. As it is made from iron which is much denser than water, its volume is much less than the volume of water which equals its weight. So it will displace less water than before it is dropped.
The answer is simple, the amount of weight a boat can hold depends on how big your boat is the bigger the boat the more water it displaces the more weight it can hold.
When an object displaces as much water as its weight, it is known as being in a state of neutral buoyancy. This phenomenon allows objects to remain suspended at a certain depth in a fluid, neither sinking nor floating.
The term you are referring to is "freeboard." Freeboard is the distance from the waterline to the deck of a boat, which determines how much weight a boat can carry without submerging the deck or taking on water. A boat's freeboard is crucial for buoyancy and stability in the water.
An object in water displaces its weight in water. If its volume is greater than the volume of water displaced this way, it floats. Ships, despite being made of heavier materials, utilize their size and their relative empty insides to float this way.
Unless you have any ballast in it that you can get rid of you really can't. The buoyancy is pretty much determined by the shape of the hull(which decides how much water it displaces) and changing that isn't a reasonable option.
The same amount of weight it displaces in water. No more or it will sink. Eureka! Says the credited discoverer of displacement. Doesn't matter what the boat is made of. As long as it doesn't leak.
The amount of water needed to float a ship depends on the ship's weight or displacement. Ships with greater displacement require more water to provide the necessary buoyancy to stay afloat. The concept of buoyancy, based on Archimedes' principle, ensures that a ship displaces an equal volume of water to its own weight in order to stay afloat.
Almost all of the boats are made of the material of higher density than water. It is a shape of the boat that makes it float on water. After displacing the amount of water equal to the weight of the boat ,it will not go deeper.At older times tribal people (even today also ) used small boats carved out of wooden logs.