no its got the same amount of density therefore its mass if the same.
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.
You can change the density of something by altering its mass and volume. Increasing the mass while keeping the volume constant will increase the density, while increasing the volume while keeping the mass constant will decrease the density.
When something is pulverized, it is crushed or ground into very small pieces or powder. This can change its physical properties and make it easier to handle or mix with other materials.
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.
It would only change the volume. This is because volume is how much room an object takes up, and crushing the car will make volume smaller. Mass is how much "stuff" an object is made of. So unless like, the bumper falls of, mass stays the same.
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.
Yes, density is defined as mass divided by volume, and mass doesn't change when you take something on a spaceship.Yes, density is defined as mass divided by volume, and mass doesn't change when you take something on a spaceship.Yes, density is defined as mass divided by volume, and mass doesn't change when you take something on a spaceship.Yes, density is defined as mass divided by volume, and mass doesn't change when you take something on a spaceship.
The mass of the solution will be equal to the mass of the solute plus the mass of the solvent. However, the total mass does not change.
No. A physical change like melting does not make something's mass change.
In general, an object's mass CANNOT change, unless you take something away from it or add something to it.
No. Mass is independent of shape. The mass, as measured by weight, will be the same. If the material is compressible and you change the volume as a result of changing the shape, the density will change although the mass will not.
You can add something to an object, or take something away. Other than that, you can't really change an object's mass. Do some reading on "conservation of mass" for more details.
Crushed ice
Cooling something down does not generally change its mass, and may or may not change its volume. Cooling a gas will change the volume (if the pressure remains the same). When you cool something down, you most directly change its heat energy.
Yes, a crushed can has chemical properties. They are the same as those of the can before crushing. Crushing a can is a physical reaction and not a chemical one. For instance, if a soup can is made of steel, the steel can be chemically attacked by something like sulfuric acid. And this is true whether the can is crushed or not.
Imagine a 500 pound glob of clay. If I took out .0000001 pounds of clay out of it, that would be an insignificant change in mass. Basically, if you take something out of something else and you hardly noticed it, that is an insignificant change.
You can change the density of something by altering its mass and volume. Increasing the mass while keeping the volume constant will increase the density, while increasing the volume while keeping the mass constant will decrease the density.