the volume or mass of the matter. it can change states such as solid liquid or gas, which would be deemed to be the same chemical identity, but a different state of matter
Physical property
Luster is not a change, it is a characteristic.
It is a chemical property. A chemical property is a characteristic of matter that allows it to change to a different type of matter.
B/ Boron, Si/ Silicon, As/ Arsenic, Ge/ Germanium, Sb/ Antimony, Te/ Tellurium, Bi/ Bismuth, Po/ Polonium and probably Uus, Ununseptium. but the only elements i know as metalloids are As, Sb, and Bi.
An organism with a charecteristic that is more helpful to its survival will be more likely to survive and breed than one without that characteristic.
The heat conductivity of a substance does not involve changes to its chemistry. Heat conductivity is a physical change and characteristic to a substance.
Physical property
A physical property is any characteristic of a material that can be observed or/and measured without changing the identity.A physical change is the change in which the properties of a substance change but the identity always stays the same.
freezing point
Any of the matter's physical properties cam be observed without a chemical change. Physical properties include mass, volume, color, hardness, conductivity, solubility, and many more.
Chemical Change
This is the easiest question I have ever heard of. It's obviously state change!!?
A physical change does not change the identity of matter.
Identity transform is a data transformation that copies the source data into the destination data without change. The identity transformation is considered an essential process in creating a reusable transformation library.
No it cannot change ever that is why it is a characteristic property.
It does change its physical look but it does not change chemically.
Matter can undergo physical changes without changing its identity. Physical changes include melting or freezing; evaporating or condensing; changing shape; chopping or grinding into smaller pieces.
Why a mixture can be seperated without any changes in the identity of the substance is unknown publicly. However, it is known that the seperation of these substances usually involve the process of mechanical filtering or decanting.