The answer to that question is: No.
The density of an object only depends on the substance its made of. If two samples
are made of the same substance, then it doesn't matter if one is the size of a grain of
sand and the other is the size of a battleship ... they have the same density.
That depends upon the density of the object. Since you haven't given it, or do not know it, I cannot answer your question.
it will never be bigger
If a pie is divided into 10 pieces and you get one of them, will each piece be bigger than if the pie is divided into 12? Of course each piece will be bigger. Same for 3 pieces of the pie.
The answer will depend on the units used. A density of 1 gram per litre is pretty light (less than the density of air at STP) whereas a density of 1 kilogram per ml is seriously dense.
Simply: Volume (V) is how much space an object takes up whereas density is how "compressed" an objects mass (m) is. Density = m/V Example: Imagine a ton of feathers and a ton of iron. They both have the same mass (weight) but they have different volumes and density.
That's not true at all. The whole idea of density is that it doesn't depend on the size of the sample; big samples and small samples of the same substance have the same density. If the whole object and a piece of it have different densities, then you can bet the composition of the piece is different from the composition of the whole thing. Example: The whole object ... a rock glued to a surfboard ... has low density and floats. One piece of it ... the rock ... has high density and sinks. (Another piece ... the surfboard ... is even less dense than the complete object, and floats even better.)
one object has greater density than another when it has
The mass of an object doesn't always depend on its size. It can depend on both size and density. Density is the mass per unit volume of an object, meaning it is how much one unit of an object's volume weighs. What determines that weight is how close together the atoms of that substance is. For example: a metal cube has a higher density than the cork of a bottle; even though they are the same size, their weight is different.
That depends upon the density of the object. Since you haven't given it, or do not know it, I cannot answer your question.
Any OBJECT with a DENSITY of LESS THAN ONE (1), will SINK in WATER.
Density (or more properly Relative Density) is an elemental property. An object made from one or more elements will have a density related to the density of the elements.
An object will float in water if the object's density is less than the density of water. Relative density is the ratio of one object density with respect to the density of another object. Relative density of any object with respect to water is also known as specific gravity. Objects with a specific gravity less than one will float those with a specific gravity greater than one will not.
If the density of an object which is equal to one(Which is also the density of the water), the object will neither sink nor float but it will be unstable, sometimes you will see the object sink then float. In other words the object is unstable in water....XD
it will never be bigger
Step 1: Weight Object Step 2: Submerge object in a volumetric piece of glassware noting the volume before and after submerging. You can subtract the two volume values to determine the volume of the object--since it will displace it's own volume while submerged. Divide mass of object by the volume of water the object displaces to get the density. If this is that more involved question involving the density of the object and distance traveled over time let me know, I can solve that one too!
It's identical. (assuming that the object is homogeneous)
Without knowing its mass, you can't determine its density. But if it's in water, you can make one broad distinction regarding its density: If the object is floating, then its density is less than ' 1 '. If the object sank, has sunk, or is sinking, then its density is more than ' 1 '.