Mass Loss in Batteries: Debunking a Myth

In summary: Nope, E=MC^2 applies to all reactions. Consider a simply molecule such as water. Take the two hydrogen atoms and the oxygen atom and determine their mass before they combine. Now, combine them into a water molecule and measure the molecules mass. It will have LESS mass than the combined mass of the free hydrgoen and oxygen atoms. The missing mass was released in the energy that the reaction gives off.
  • #1
Eugbug
21
0
I just want to confirm an error I have seen on another website about discharging of batteries.
The poster suggested that the mass of a battery decreases because matter is being converted into energy according to the equation E=mc2 as the battery discharges. They said that because c is so large, the weight loss would be imperceptible.My understanding is that any loss in weight is due to vented gases from the chemical reaction and E=mc2 only applies to nuclear reactions and not chemical reactions.
 
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  • #2
Nope, E=MC^2 applies to all reactions. Consider a simply molecule such as water. Take the two hydrogen atoms and the oxygen atom and determine their mass before they combine. Now, combine them into a water molecule and measure the molecules mass. It will have LESS mass than the combined mass of the free hydrgoen and oxygen atoms. The missing mass was released in the energy that the reaction gives off.
 
  • #3
Drakkith said:
Nope, E=MC^2 applies to all reactions. Consider a simply molecule such as water. Take the two hydrogen atoms and the oxygen atom and determine their mass before they combine. Now, combine them into a water molecule and measure the molecules mass. It will have LESS mass than the combined mass of the free hydrgoen and oxygen atoms. The missing mass was released in the energy that the reaction gives off.

The mass change is tiny and unmeasurable on a standard chemistry balance. You can use E=mc^2 and apply it to the energy released in the reaction and you'll come up with a miniscule change in mass.
 
  • #4
The nuclear bomb that deverstated Hiroshima converted about 1 gm of matter into energy.
 
  • #5
Check out BINDING ENERGY and MASS DEFICIT for some insights on the above posts.

http://en.wikipedia.org/wiki/Binding_energy#Mass_deficit


You'll note that it is "binding energy mass" is what changes rather than traditional "mass".

As an example, if you heat a substance it will have more "mass" and more gravitational effect
than before heating...The kinetic energy after heating of the constitutent particles increases and contributes to rest "mass" as noted above via E = mc2...

In a nuclear reaction, some actual constitutent particles are destroyed and converted to energy...radiation...again via E = mc2
 
  • #6
Chemists usually assume conservation of mass from reactants they combine to the chemical products they form. It's a useful assumption in many applications where the energy release is below nuclear levels. It's not strictly true however. The heat energy that is released does correspond to a very small loss of mass, usually of an amount of no practical consequence, that is, if the reaction doesn't go nuclear.
 

Related to Mass Loss in Batteries: Debunking a Myth

1. What is mass loss in batteries?

Mass loss in batteries refers to the decrease in weight or mass of a battery over time, which is often seen as a sign of battery degradation or inefficiency.

2. Is mass loss a common issue in all types of batteries?

No, mass loss is not a common issue in all types of batteries. It is mainly seen in older lead-acid batteries, but not as much in newer batteries such as lithium-ion or nickel-metal hydride batteries.

3. What causes mass loss in batteries?

Mass loss in batteries is caused by a variety of factors, including natural degradation over time, improper usage and maintenance, and exposure to extreme temperatures.

4. Does mass loss affect the performance of a battery?

In most cases, mass loss does not significantly affect the performance of a battery. It is often just a natural part of the battery's lifespan and can be managed through proper maintenance and usage. However, if the battery is losing mass at a rapid rate, it could indicate a more serious issue that may affect its performance.

5. How can I prevent or minimize mass loss in batteries?

To prevent or minimize mass loss in batteries, it is important to follow proper usage and maintenance guidelines, such as avoiding overcharging or over-discharging the battery and keeping it at a moderate temperature. Regularly checking and replacing worn out parts, such as terminals and connectors, can also help prevent mass loss.

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