Wiki User
β 12y agoNothing. If the volume is increased, the mass also has to increase.
Wiki User
β 12y agoIf an object's mass remains constant but its volume is increased, then the density of the object decreases. This is because density is calculated by dividing an object's mass by its volume, so increasing the volume while keeping the mass constant leads to a lower density value.
When the volume is constant, the masses of two objects will differ based on their densities. The object with a higher density will have a greater mass compared to an object with a lower density. Density is a measure of how much mass is packed into a given volume, so if the volume is constant, objects with higher density will have greater mass.
Size does not have a significant effect on the density of objects made of the same material. Density is an intrinsic property of a substance and is constant regardless of the size or shape of the object. However, larger objects made of the same material will have more mass and volume, but their density remains the same.
If an object's density is equal to that of a liquid, the object will be neutrally buoyant and it will neither sink nor float in the liquid. This means the object will remain suspended in the liquid at a constant depth.
Yes, an object's density can be changed by altering its mass or volume. Increasing the mass while keeping the volume constant will increase the density, while decreasing the volume while keeping the mass constant will also increase density.
If volume is increased while mass remains the same, density decreases. Density is the mass of an object per unit volume, so if volume increases while mass stays constant, the density will be spread out over a larger volume, resulting in a lower density.
If an object's volume remains constant but its mass is increased, its density will also increase. Density is defined as mass divided by volume, so if the volume stays the same while the mass increases, the density will increase as well.
When the volume is constant, the masses of two objects will differ based on their densities. The object with a higher density will have a greater mass compared to an object with a lower density. Density is a measure of how much mass is packed into a given volume, so if the volume is constant, objects with higher density will have greater mass.
Raising the temperature the density is lowered.
Size does not have a significant effect on the density of objects made of the same material. Density is an intrinsic property of a substance and is constant regardless of the size or shape of the object. However, larger objects made of the same material will have more mass and volume, but their density remains the same.
If an object's density is equal to that of a liquid, the object will be neutrally buoyant and it will neither sink nor float in the liquid. This means the object will remain suspended in the liquid at a constant depth.
If volume is increased while mass remains the same, density decreases. Density is the mass of an object per unit volume, so if volume increases while mass stays constant, the density will be spread out over a larger volume, resulting in a lower density.
Yes, an object's density can be changed by altering its mass or volume. Increasing the mass while keeping the volume constant will increase the density, while decreasing the volume while keeping the mass constant will also increase density.
Well if they are made of the same materials then the density should be a constant or "the same."
With constant mass, a decrease in volume will increase the the density. Conversely, an increase in volume will decrease the density.
Objects would move with constant velocity or stay at rest.
As objects cool down, their density typically increases. This is because the particles in the object lose kinetic energy and move closer together, causing the object to become more compact and denser.
Increased salinity results in greater water density, thus making it easier for objects to float. The higher the salinity, the more buoyant a submerged object will be due to the increased water density providing more support. Conversely, decreased salinity reduces water density and makes objects less buoyant.