3 Minor typography changes.
source | link

Apart from condensation why do electronic components usually have a low temperature limit? For example my laptop says something along the lines of -10-75°C °C to 75 °C temperature while in use.

I can understand the high temperature limit, as things will probably melt!

But why is cold such a bad thing?

Apart from batteries, which components will extreme cold damage, and how?

Will using it increase the damage?

Will using the equipment offset this damage (as they warm up from use)?

Also, I am talking about extreme temperatures below -50 °C, so is condensation still a problem?

Note: I am not storing it so it is not a duplicate of another question.

Note 2: I am not talking about semiconductors, but generally speaking.

Apart from condensation why do electronic components usually have a low temperature limit? For example my laptop says something along the lines of -10-75°C temperature while in use.

I can understand the high temperature limit, as things will probably melt!

But why is cold such a bad thing?

Apart from batteries, which components will extreme cold damage, and how?

Will using it increase the damage?

Will using the equipment offset this damage (as they warm up from use)?

Also, I am talking about extreme temperatures below -50, so is condensation still a problem?

Note: I am not storing it so it is not a duplicate of another question.

Note 2: I am not talking about semiconductors, but generally speaking.

Apart from condensation why do electronic components usually have a low temperature limit? For example my laptop says something along the lines of -10 °C to 75 °C temperature while in use.

I can understand the high temperature limit, as things will probably melt!

But why is cold such a bad thing?

Apart from batteries, which components will extreme cold damage, and how?

Will using it increase the damage?

Will using the equipment offset this damage (as they warm up from use)?

Also, I am talking about extreme temperatures below -50 °C, so is condensation still a problem?

Note: I am not storing it so it is not a duplicate of another question.

Note 2: I am not talking about semiconductors, but generally speaking.

2 Clarified that my question is not a duplicate.
source | link

Apart from condensation why do electronicselectronic components usually have a low temperature limit? For example my laptop says something along the lines of -10-75°C temperature while in use.

I can understand the high temperature limit, as things will probably melt!

But why is cold such a bad thing?

Apart from batteries, which components will extreme cold damage, and how?

Will using it increase the damage?

Will using the equipment offset this damage (as they warm up from use)?

Also, I am talking about extreme temperatures below -50, so is condensation still a problem?

Note: I am not storing it so it is not a duplicate of another question.

Note 2: I am not talking about semiconductors, but generally speaking.

Apart from condensation why do electronics usually have a low temperature limit? For example my laptop says something along the lines of -10-75°C temperature while in use.

I can understand the high temperature limit, as things will probably melt!

But why is cold such a bad thing?

Apart from batteries, which components will extreme cold damage, and how?

Will using it increase the damage?

Will using the equipment offset this damage (as they warm up from use)?

Also, I am talking about extreme temperatures below -50, so is condensation still a problem?

Note: I am not storing it so it is not a duplicate of another question.

Apart from condensation why do electronic components usually have a low temperature limit? For example my laptop says something along the lines of -10-75°C temperature while in use.

I can understand the high temperature limit, as things will probably melt!

But why is cold such a bad thing?

Apart from batteries, which components will extreme cold damage, and how?

Will using it increase the damage?

Will using the equipment offset this damage (as they warm up from use)?

Also, I am talking about extreme temperatures below -50, so is condensation still a problem?

Note: I am not storing it so it is not a duplicate of another question.

Note 2: I am not talking about semiconductors, but generally speaking.

    Tweeted twitter.com/#!/StackElectronix/status/544291712085286912
1
source | link

Why do electronics have a low temperature limit?

Apart from condensation why do electronics usually have a low temperature limit? For example my laptop says something along the lines of -10-75°C temperature while in use.

I can understand the high temperature limit, as things will probably melt!

But why is cold such a bad thing?

Apart from batteries, which components will extreme cold damage, and how?

Will using it increase the damage?

Will using the equipment offset this damage (as they warm up from use)?

Also, I am talking about extreme temperatures below -50, so is condensation still a problem?

Note: I am not storing it so it is not a duplicate of another question.