If 5 L is 1/3, 15 L is all of it.
Not sure that either water or gasoline have litters, but 1.00 litres of water does have greater mass than 1.00 litres of gasoline.
To determine the volume of water in a half-filled bath, you'll need to know the total capacity of the bathtub. For example, if a standard bathtub holds about 40 gallons (approximately 151 liters) when full, then a half-filled bath would contain about 20 gallons (about 76 liters) of water. The exact volume will vary depending on the specific size and shape of the bathtub.
put it in a glass baker filled with amount of water enough to cover the body measure the amount of the water before and after you put the body the difference is the volume of the body
Throw them all into a suitably sized measuring vessel marked with volumes and measure the amount of water they displace.
Fill a market beaker to a specific measured volume. (Eg. 50cm cubed, make sure you have not filled the beaker with water). Now place the object in the beaker with water. The water level should rise (Eg. from 50cm cubed to 60cm cubed). The difference in the original volume and the final volume is the volume of the object. That is the water displacement method.
When water is heated, it expands and its volume increases. If a vessel is completely filled with water and heated, the water expands beyond the vessel's capacity, leading to spillage. This is due to the increase in kinetic energy of the water molecules, causing them to move further apart and occupy more space.
Historically, the displacement of a body is the volume of water lost if the object were to be submerged in a vessel filled to the absolute rim with water.
use Archimedis' law- take a known volume of water in a vessel filled upto the brim and immerse the object that you want to measure the volume inside the vessel without giving any pressure and measure the volume of the water overflowed. that will give you the volume of the object(an approximate value)
When heating the vessel filled with water, the heat from the water can cause the vessel to expand. If the vessel is filled completely with water, there may not be enough space for the water to expand within the vessel, leading to the water spilling out. The spilled water mixes with the wine, causing the spill to be a mix of both water and wine.
A tube that has liquid flowing through it.
To determine the volume of water in a half-filled bath, you need to know the total capacity of the bathtub. For example, if a bathtub has a capacity of 150 liters, then half-filled would contain 75 liters of water. Simply divide the total volume by two to find the volume of water when the bath is half full.
Gases that are relatively insoluble in water are collected by water displacement. The gas pushes the water down and out of the water-filled gas-collecting vessel. The gas-collecting vessel (generally a flask or test tube) is first filled with water, covered with a glass plate or plastic wrap (no air bubbles must enter the vessel, and then inverted into a deep pan or tray half-filled with water. The glass plate or plastic wrap is removed, and the tubing from the gas generator is inserted into the mouth of the gas-collecting vessel.
When water freezes in an enclosed vessel, it expands and exerts pressure on the vessel walls. This pressure depends on factors such as the volume of water, rate of freezing, and strength of the vessel. Generally, this can lead to the vessel cracking or bursting if the pressure becomes too high.
approximately 0.8 bar
This is not a good/valid question as the terms used in it are not compatible I.E. Surface tension has nothing to do with a cavity within the hull (filled or not with water)Perhaps the question was meant to be: Is the displacementof the hull increased when a cavity within the hull of a vessel is filled with water?To this, the answer is yes, as any weight added to the vessel, no matter where it is added (inside a cavity or not) will increase the displacement.The displacement of a vessel such as a ship is a measure of the amount of water that would normally be in the area that the ship now occupies. The weight of this displaced water would be equal to the total weight of the entire ship.
No, it's the other way around. Water will assume the shape of the vessel it's poured into, but the volume will remain the same.
Water is denser than air. As the water is pumped out, air replaces the space that was occupied by the water. Therefore, the total density of the sub decreases. The above answer is correct. Here is a little more detail. As you may be aware density is a function of mass and of volume. It's mass per unit of volume. If you had a pan full of water and a similar pan which was empty, the water filled pan would weigh more, though the overall volume would be the same. Hence the density would be greater. When the submarine 'pumps out' the water it is replaced by air. Because air is less dense than water, it reduces the overall density of the vessel. Consider that the submarine is a vessel, as in a ship, and also a vessel, as in something that holds something else, like a cooking vessel. The submarine is a closed vessel; it has a fixed volume set by the hull. But by pumping water into or out of its internal tanks, it can change its total mass. If it pumps water in, it is increasing its total mass, and this will increase its density (as the volume stays the same). Pumping water out decreases the submarine's total mass, and its density will go down.