No. Matter can neither be created or destroyed in normal circumstances.
The exceptions to this are during radioactive decay, in the core of a star or in a particle accelerator ,
Energy.
When matter undergoes a chemical change, the composition of the matter changes. When matter undergoes a physical change, composition of the matter remains the same.
When matter undergoes a physical change, its state may change (solid to liquid, liquid to gas, etc.), its shape or size may change, or its physical properties such as density or volume may be altered. However, the chemical composition of the substance remains the same before and after the physical change.
Ice melting into water is an example of matter undergoing a physical change. The ice changes from a solid state to a liquid state without altering its chemical composition.
Gases adapt most easily to changes in volume.
Gas
Mass is a property that remains constant in all states of matter: solid, liquid, gas, and plasma. The total mass of a substance does not change when it undergoes a phase change because mass is a measure of the amount of matter in an object.
actually solids will be the best answer for this
plasma is most likely to be there in the space. so it cannot undergo to any states of matter as it is considered as a state of matter. coming to Bose Einstein condensate(BEC) it undergoes to it stse when the gas is cooled to lower and lower temperature.
A chemical change cant be undone and a new substance, so in other words you cant reverse the effects and in the end you get ashes. An example of a chemical change would be burning paper and getting ashes. A physical change can be undone. An example of a physical change would be bending the paper because you can still get the paper back and no new substance is created.
When matter undergoes a physical change, its state or appearance may change, but its chemical composition remains the same. For example, when water is heated and turns into steam, its physical state changes from liquid to gas, but it is still composed of H2O molecules.
When a substance changes state from a solid to a liquid, it undergoes melting where it gains enough energy to break the bonds holding its particles together. When it changes from a liquid to a gas, it undergoes vaporization where it gains enough energy to overcome the forces of attraction between its particles.