A boat weighs the same as the water it displaces i.e. the volume of the boat that sits below the water.
Depends how often you go on a boat
The answer depends on what kind of boat and how big.
It is called listing when a boat leans. If the boat leans to port (left) then it is listing to port.
Unless you are in a reality where nothing has to do with itself, volume has everything to do with volume as it is itself.
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.
Well, wood is lighter than water, so it floats, but that has very little to do with why a boat floats. You could make a boat out of just about any material that was rigid enough to hold its shape, and strong enough to not crack under the pressure a boat is subjected to, and, if built to the correct dimensions, it would float. A boat floats because the volume of water it displaces when placed in water has a higher weight than the weight of the boat and everything in it. When you put a boat in the water, it "displaces" (pushes aside) a volume of water equal to the volume of the boat up to the waterline. How much water is displaced depends on how heavy the boat and its contents are. As long as that weight is not greater than the volume of water the boat displaces, the boat will float. But remember, as you place more weight in the boat, it sinks lower in the water, therefore displacing more water, so the weight of water being dispaced is increasing too, though not as fast as the weight of the boat. Eventually, if you keep adding weight to the boat, the boat will weigh more than the water it displaces, and the top of the boat will sink below the water. At that point, water will get inside the boat and quickly add more weight to the boat, causing it to sink rapidly. Another way of looking at it. A boat floats by spreading out the weight of its contents over a larger volume than they would normally occupy, thereby lowering the density of the boat and its contents. This would not work if the boat was a flat piece of wood. The wood itself would float, but you couldn't put much weight on it before it sank. However, if you took that same piece of wood and built a structure (a box with the top side open is the simplest) that had a hollow volume that was prevented from being filled with water, the inclusion of that hollow volume increases volume without increasing weight, which means the density decreases. Ultimately, when you place any object in water, whether it floats or not depends on its density. Adding passengers or other dense objects to the inside of the boat will increase its weight (it will also increase the volume of the boat, if the objects are not fully contained within the volume below the top of the boat, but volume does not increase as much as weight does, so density increases.) At the point where the density of the boat and its contents exceeds the density of the water, the boat will sink. However, some time before that point, the density of the boat will be high enough to push it down in the water enough for water to start spilling over the sides, which will rapidly increase the weight of the boat, with no increase in volume, resulting in a rapid increase in density, causing the boat to sink like a rock. So, if you're looking at in terms of density rather than displacement, you need to assume that objects placed inside the boat, even if they do not fit in the original volume of the boat, do not increase the volume of the boat used in your calculations. In other words, assume that all objects fit neatly inside the original volume of the boat without increasing its volume. So that, when you are computing the density of the boat and its contents, the volume in the denominator remains constant at the original volume of the boat alone.
Mass is entirely dependant on volume and substance, how big is the boat and how much does it weigh?
The paper boat with the largest volume will float the longest basically the largest paper boat will float the longest.
Indeed yes. Density is defined as mass per unit volume. If all the mass were concentrated in one lump, your boat would no longer float. If the metal walls of the boat were a little thinner, you'd have more boat volume, and lower density.
you must know the height weight and lenght then multiply them
It is lighter than the volume of water which it displaces.
Yes it does because depending on the materials of the boat and how much their mass is can change the buoyancy of the toy boat. Boat can be designed to have less volume in order for it to have less density and be able to float. So if the material's mass is alot if can make the boat sink. If the material's mass is not alot then it can help the boat float. If the shape is designed to have more volume than mass it will float. If not then it will sink.
The buoyant force remains the same regardless of whether the boat is loaded or empty. The buoyant force is determined by the volume of water displaced by the boat, not by its weight or load.
To calculate the buoyancy of a cardboard boat, you need to determine the weight of the water displaced by the boat. This can be calculated by multiplying the volume of the submerged part of the boat by the density of water. The buoyant force acting on the boat is equal to the weight of the water displaced.
Given the volume of the airspace, we'll advise you as to the best size of air-conditioner for the boat's stateroom.
When a boat sinks, it displaces less water because it is submerged. This reduction in buoyancy causes the water level to drop as the weight of the boat and the water it displaced is now underwater instead of resting on the surface.