no
Yes, if two objects have the same volume and density, they will have the same mass. This is because mass is calculated by multiplying density and volume; therefore, having the same density and volume means the objects will have the same mass.
If two objects have the same density, then their mass and volume must also be the same. Density is calculated by dividing an object's mass by its volume, so if the density is the same for two objects, it means that the ratio of their mass to volume is equal.
No, two objects with the same volume may not have the same inertia. Inertia depends on the mass and distribution of mass within an object, not just its volume. Objects with different densities or shapes can have different inertial properties even if they have the same volume.
No, two objects with the same mass can have different volumes if they have different densities. Density is the mass of an object per unit volume. For example, a bar of gold and a bar of aluminum can have the same mass but different volumes due to their different densities.
They have the same volume.
Yes.
Volume. Density depends on mass and volume. Density = mass/volume. Things that have the exact same mass can have different densities if the volume associated with either are different.
will have a higher density. Density is the mass of an object per unit volume, so if two objects have the same volume but different masses, the one with greater mass will have a higher density.
Mass divided by volume equals density. For the same volume, if the mass is more then the density is higher.
the volume could be different that could lead to the same density. For example: d=m/v so you would have a mass of 10 for compound A and a mass of 5 for compound B, and the volume of compound A is 2 and the volume of compound B has a volume of 1. Therefore both densities equal 5.
The volume of liquid displaced has the same mass as the floating object.
Their masses are different. (Mass = density * volume)