I believe that would be gravity, acceleration and momentum.
Mostly a poor question, since you never defined the units of "much." However, in terms of weight, the answer will depend on the specific gravity of the liquid; the greater the SG of the liquid, the greater the weight.
Neither is greater.
I would place it in a container full of liquid after measuring the liquid. I would measure the amount of liquid displaced by the object. That amount is equal to the volume of the irregular object if it is fully submerged in the liquid.
For two liquids of the same volume, the liquid with a higher density will have greater mass. Similarly, the liquid with a greater mass has a higher density. This is only true for samples of equal volume, however.
apples and oranges liters is a liquid measure grams is a solid measure both are in 1000ths though so in that way they are equal
Mostly a poor question, since you never defined the units of "much." However, in terms of weight, the answer will depend on the specific gravity of the liquid; the greater the SG of the liquid, the greater the weight.
If you were submerged in a liquid more dense than water, the pressure would be correspondingly greater. The pressure due to a liquid is precisely equal to the product of weight density and depth. liquid pressure = weight density x depth. also the pressure a liquid exerts against the sides and bottom of a container depends on the density and the depth of the liquid.
30 pounds. Is the net weight of the product in a container in it`s liquid state. The vapor pressure within the container will vary according to the temperature of the container. But the net weight is 30 lbs, much like having a propane cylinder refilled.
According to Archimedes' principle, buoyant force is equal to the weight of the displaced liquid.
The buoyant force on a ship (or any object in a liquid) is equal to the weight of the water the displaces. If this force is greater than the weight of the ship, it will stay afloat.
When an object is immersed in a liquid, the liquid exerts a buoyant force on the object which is equal to the weight of the liquid displaced by the object. This statement is known as Archimedes' Principle. When a solid body is immersed wholly or partially in a liquid, then there is same apparent loss in its weight. This loss in weight is equal to the weight of the liquid displaced by the body. the bouyant force of an object equal to the weight of the fluid that the object displaced .
Sour cream is sold by weight, not by volume. An 8 ounce container of sour cream is equal to 3/4 C by volume. A 16 oz. container of sour cream is equal to 1 1/2 C by volume. Do not be confused with liquid measure and weight measure. Very rarely will they be the same.
Buoyancy depends on the density of the gas or liquid in which an object is submersed and the volume of the object, because the upward force is equal to the weight of the gas or liquid that the object disperses. If you disregard the volume of the container itself, the upward force on such a container completely submerged in pure water would be the weight of 55 gallons of water, which is about 459 pounds.
As a body gets immersed in a liquid then the loss of weight of the body is equal to the weight of the liquid displaced.
The density of the liquid is equal to the weight of the liquid divided by the volume.
Other things (the volume and shape) being equal, a greater weight would cause a greater terminal velocity.
IS equal to the weight of the liquid that was originally in the position now occupied by what is being buoyed up. After all that particular bit of liquid was originally held in place by the same bouyant force.