Outer Space Adventure - Part 6 - Solving sudden encounter of extreme different temperature cloud of molecules

Okay ladies and gentlemen, today we are going to relearn about molecules and temperature. By the way, it's a nice picture right? I use this picture not of the precision of the molecule representation, but the beauty of it :P. Kudos to whoever that made this. Anyway, the pattern suit the molecular bonding also.

So, what is molecule?
Nothing new from me, same, a set of atoms bonded together.

So, what is temperature?
All physicist, scientist and researchers should already know this, but not everyone can learn about this with the current syllabus.
In normal term, we define something Hot or Cold when we feel it with our skin's receptor. Touch a boiling kettle, we shout "Hot!!", throw yourself naked in a bath tube full with ice cube, we shout "Cold!"
So, what is happening?
By the way, we also need to know that our skin's receptors constantly send the heat signal to our brain telling us about the surrounding heat.
So, now we know our body have body temperature that makes our skin molecule vibrate at a constant frequency. And the different electrical signals send different signals to our brain on different heat.
When we touch a boiling kettle, the energy of our vibrating skin molecules is being amplified into super vibration, causing extreme electrical charge towards our brain, and thus, we feel hot.
When we touch an ice cube, the energy of our vibrating skin molecules is being drained away, transferred to the ice cube, and our skin's heat receptor send less electrical charge to our brain, and after we get used to some constant electrical charge, getting less dose of that electrical charge makes our brain feel uncomfortable, and we feel cold.

So what I'm trying to tell you is, temperature is difference of vibrating energy of some molecule.

And yeah, if our spaceship simply go into these cloud of molecules, the ship's shield and plating will break due to sudden changes of frequency because of the molecular bonding unable to withhold the changes.

So, how do we use this knowledge to avoid breaking our ship when encountering these clouds?
Idea #1
Use heat detector technology already developed, avoid going into these clouds. Go around them.
(Not cool)

Idea #2
Use heat detector technology already developed, use some mega laser technology, currently being developed, pew pew them away.
(Cool, but would be a waste of energy I guess?)

Idea #3
Develop some magnetic shield around the ship, based on "Outer Space Adventure - Part 4 - Solving Cosmic Radiations Problem", to spin and prevent all incoming molecule from touching the spaceship's plating when we go through that cloud of molecule
(Super cool, 1 stone hit 2 birds I suppose?)

Suggestion, go for Idea #3 :)