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What else can I help you with?
Is the freezing of mercury a reversible or irreversible physical change?
reversible. because you can melt it back to a liquid.
Is evaporating reversible or irreversible?
Yes, this change is reversible.
What are two ways matter can be change which is temporary and which permanent?
Matter can be changed through physical changes, such as melting or freezing, which are temporary and reversible. It can also undergo chemical changes, like burning or rusting, which are permanent and irreversible.
Is logs burning a reversible or a irreversible change?
reversible
Is toast reversible or reversible?
Burning is an irreversible change.
Is creating iron sulfide an irreversible or reversible change?
irreversible change
What is a non reversible change?
A reversible change is a change you can make, then put back, however a non-reversible change is a change you can make, then it will be stuck like that
What is the scientific word of reversible and irreversible?
irreversible change is called a physical change.
Is perfume evaporating a reversible change?
As I have learned, it is an irreversible change, so no its not a reversible change.
Is raining a reversible change or irreversible change?
Rain is a natural phenomena and is not reversible.
What is reversible changes?
A reversible change is where like if you had some ice, you could melt and then change it back to ice again making it a reversible. An irreversible change is something that can't be reversed, like burning food, as you cannot unburn it. Hope I helped!
Can electricity and light bring about reversible change or irreversible?
Electricity and light can both bring about reversible and irreversible changes, depending on the specific circumstances. For example, electricity can cause reversible changes in the charging and discharging of a battery, while light can induce reversible changes in the color of a photochromic material. However, both electricity and light can also cause irreversible changes such as the degradation of electronic components from overheating or the decomposition of light-sensitive molecules.
