weight, volume, density, mass
The chemical properties of an object show what a chemical change did to that substance.
No, the properties of a substance do not change when it is mixed with another substance. The substances retain their individual properties even when they are combined. Mixing substances simply results in a physical change, without altering their individual properties.
Yes
When a substance changes, any or all of its properties can also change.
A chemical reaction (change) results in a change in chemical properties.
a physical change is a change in any physical property of a substance, not in the substance itself
Density and temperature can both vary for a substance without changing the identity of the substance. The density of a substance can change with temperature, pressure, or the presence of impurities, while the temperature of a substance can change due to external factors like heating or cooling.
When a substance changes but still retains its original properties, the change is called a physical change. If it didn't retain its original properties, then it went through a chemical change.
Intensive properties remain the same with a change in the amount of a substance - for example: temperature and density Extensive properties do not remain the same with a change in the amount of a substance - for example: mass and volume
A chemical change occurs when a new substance is formed with different properties from the original substance. This change involves the rearrangement of atoms and the formation of new chemical bonds. It is typically irreversible.
In a physical change, the chemical composition of the substance remains the same, but some physical properties like shape, size, or state may change. This means that the substance can be reversed back to its original state without undergoing a chemical reaction.
The chemical composition of the substance does not change when it changes its state of matter. The arrangement of atoms and molecules may vary, but the elements present in the substance remain the same.