No. Density is independent of size.
Not necessarily. Mass is a measure of the amount of matter in an object, while size refers to the dimensions of the object. Two objects of the same size may have different densities, which would result in different masses.
The density of both objects will be the same regardless of their size if they are made of the same material. Density is a physical property of a material that remains constant regardless of the object's size or shape.
If the density of an object is cut in half, the object's mass remains the same but its volume doubles. This means the object will become larger in size but will still have the same mass.
The specific gravity is a dimensionless term which is the relationship of the density to the density of water. For metric measurements, the density in gm/cc or kg/l is the same because water's density is 1 gm/cc or 1 kg/l (at 3.98 °C, 1 ATM). This would not be true in pounds, gallons, and etc, although if the specific gravity is calculated, then the units will cancel out and the results will be the same.
No, the amount of water displaced by an object is determined by its volume, not its density. Objects with different densities but the same volume will displace the same amount of water.
No. If an object is homogeneous, then you can cut it up into a bazillion smaller pieces, and every piece has the same density as the original object had.
Not necessarily. Mass is a measure of the amount of matter in an object, while size refers to the dimensions of the object. Two objects of the same size may have different densities, which would result in different masses.
No. An ice cube is much less dense than a cube of granite the same size and shape.
The density of both objects will be the same regardless of their size if they are made of the same material. Density is a physical property of a material that remains constant regardless of the object's size or shape.
Length is one of the dimensions. Length, width, height etc. which can describe an object are called its dimensions.
If the density of an object is cut in half, the object's mass remains the same but its volume doubles. This means the object will become larger in size but will still have the same mass.
object B has greater density recall the formula for density is = mass/volume since volume is the same, a greater mass will give a greater density
The specific gravity is a dimensionless term which is the relationship of the density to the density of water. For metric measurements, the density in gm/cc or kg/l is the same because water's density is 1 gm/cc or 1 kg/l (at 3.98 °C, 1 ATM). This would not be true in pounds, gallons, and etc, although if the specific gravity is calculated, then the units will cancel out and the results will be the same.
Density of the substance will always stay the same. Density of the object will also stay the same if solid, no matter the size, but not if it is carved out. That is why a steel boat can float
No, the amount of water displaced by an object is determined by its volume, not its density. Objects with different densities but the same volume will displace the same amount of water.
Mass does affect an object's density. Density is calculated by dividing an object's mass by its volume. Therefore, if the mass of an object increases while its volume remains constant, its density will increase. Conversely, if the mass decreases while the volume stays the same, the density will decrease.
The object with the mass of 50g has the greatest density because density is mass divided by volume, and since volume is the same for both objects (since they are the same size), the object with the greater mass will have the greater density.