Law of conservation of mass question

In summary, the conversation discusses the law of mass conservation in chemical reactions and whether or not matter can be destroyed or created in any way. While this law has been replaced by the concept of mass and energy conservation, it still holds true for most practical purposes. The conversation also mentions the possibility of unburning something, specifically in the context of metal oxide being turned back into metal through the process of reduction. This has been a common practice for thousands of years in the production of metal from ore.
  • #1
land_of_ice
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" In a chemical reaction matter can be neither created nor destroyed "

So does this law only apply to chemical reactions or can matter ever be destroyed or created in any way shape or form?


and do people believe that something that has been burned can be unburned?
It says that when metal is heated it leaves behind calx and that if you want to remove the calx and combine it with charcoal you can then heat the calx will become metal again, this seems untrue, this is in a science book, not sure whether or not they are talking about a theory that existed at one time or if this is believed to be true now a days that something can be un burned ?
 
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  • #2
land_of_ice said:
" In a chemical reaction matter can be neither created nor destroyed "

So does this law only apply to chemical reactions or can matter ever be destroyed or created in any way shape or form?

Mass conservation has been replaced by mass&energy conservation - that is, mass can be converted directly into energy and vice versa. But for most practical purposes mass conservation still holds, it becomes important when you are close to c or when you are talking about nuclear eactions.

and do people believe that something that has been burned can be unburned?
It says that when metal is heated it leaves behind calx and that if you want to remove the calx and combine it with charcoal you can then heat the calx will become metal again, this seems untrue, this is in a science book, not sure whether or not they are talking about a theory that existed at one time or if this is believed to be true now a days that something can be un burned ?

Calx is usually a metal oxide - and it can be decomposed back into metal and oxygen. It doesn't have to be easy, but it is always doable.
 
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  • #3
land_of_ice said:
It says that when metal is heated it leaves behind calx and that if you want to remove the calx and combine it with charcoal you can then heat the calx will become metal again, this seems untrue, this is in a science book, not sure whether or not they are talking about a theory that existed at one time or if this is believed to be true now a days that something can be un burned ?

This is called reduction (the opposite of oxidation). The heated charcoal produces carbon monoxide, which steals the oxygen from the metal oxide, turning it back into metal again.

It's how people have produced metal from ore for ten thousand years.
 

1. What is the Law of Conservation of Mass?

The Law of Conservation of Mass states that matter cannot be created or destroyed, but can only change forms. This means that in any chemical reaction, the mass of the reactants must equal the mass of the products.

2. Why is the Law of Conservation of Mass important?

This law is important because it helps us understand and predict the outcome of chemical reactions. It also serves as the basis for other laws in chemistry, such as the Law of Definite Proportions.

3. How is the Law of Conservation of Mass related to the Law of Conservation of Energy?

The Law of Conservation of Mass is related to the Law of Conservation of Energy because both laws state that matter and energy cannot be created or destroyed, only transformed. In a chemical reaction, mass may be converted into energy or vice versa, but the total amount of matter and energy remains constant.

4. Is the Law of Conservation of Mass always true?

In general, the Law of Conservation of Mass is always true. However, in certain extreme conditions such as nuclear reactions, a small amount of mass may be converted into energy according to Einstein's famous equation, E=mc^2.

5. How can the Law of Conservation of Mass be proven?

The Law of Conservation of Mass can be proven through experimental observations and measurements in chemical reactions. By measuring the mass of the reactants and products before and after a reaction, we can see that the total mass remains the same, thus proving the law to be true.

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