Each metal has a unique, characteristic density. Aluminum metal is of much lower density than iron, for example--something that you can readily observe if you have equal-volume solid blocks of each metal. The iron will be obviously more massive. Density of any metal varies a small amount with temperature--increasing as temperature increases, so for complete accuracy assume the above applies to solid samples of metal at the same temperature. Each metal has a unique, characteristic density. Aluminum metal is of much lower density than iron, for example--something that you can readily observe if you have equal-volume solid blocks of each metal. The iron will be obviously more massive. Density of any metal varies a small amount with temperature--increasing as temperature increases, so for complete accuracy assume the above applies to solid samples of metal at the same temperature.
Stays the same. Cutting a chocolate bar in half does not change its density, as density is a measure of mass per unit volume and is independent of the size or shape of the object. The mass and volume of the chocolate bar remain the same, so the density remains constant.
As long as the temperature and pressure remain constant, the density of a substance will not change. Density is determined by the mass of a substance and its volume, and as long as these factors remain constant, the density will remain the same.
The density of the lead weight will remain the same regardless of the change in altitude. Density is a property of the material itself and does not change with elevation.
The density of the solid substance remains unchanged when it is cut in half. The mass and volume are both halved, which means the ratio of mass to volume, i.e., density, stays the same.
The material (wood), volume (cubic shape), and density (assuming same type of wood) remain constant for the four cubes of wood.
If you cut a metal in half, each half will have the same density as the original metal, so the density of each half will still be 8.4. The density of a material does not change when you cut it into pieces.
The density of the metal will remain the same. However because the volume of the object has been reduced the overall density will increase
The density of the metal in a crushed can remains the same as the density of the metal before the can was crushed. While the volume of the can decreases when it is crushed, the mass of the metal remains constant. Therefore, the density, which is mass divided by volume, remains unchanged.
Stays the same. Cutting a chocolate bar in half does not change its density, as density is a measure of mass per unit volume and is independent of the size or shape of the object. The mass and volume of the chocolate bar remain the same, so the density remains constant.
The density will remain the same.
The density of each half remains the same as the original density of the bar. Cutting the aluminum bar in half does not change the density of the material, as density is an intrinsic property of the material.
The density of the chocolate bar will remain the same, even if the bar is cut in half, or any other fraction. Only if the chocolate was to be melted, will the density change from a solid to a liquid.
When you cut a bar of soap in half, the total mass and volume remain the same. Density is calculated by dividing mass by volume, so since both mass and volume are halved when cutting the soap in half, the density remains constant.
The density of the metal in the crushed can remains the same as the density of the metal before it was crushed. Density is an intrinsic property of a material that does not change with physical alterations like crushing. So, the density of the metal in the can will not change due to the crushing process.
Could you be any more ambiguous...
density decreases.
The density of the metal in a crushed can remains the same as the density of the metal before the can was crushed. The mass of the metal remains constant; only its shape changes when the can is crushed.