In laws of motion, everything has an equal and opposite reaction, and it applies to all matters in the reality.

If the earth stops moving suddenly just for one second, then everything on earth will be thrown out into space. But sudden rapid movement or sudden stop of motion does not cause the electrons to lose control around the nucleus or atom. Why? (For example: putting the brakes on suddenly in a car while travelling around the speed of $180$ km/h, creates massive momentum transfer and that momentum does not affect the electron's path of the car or the person sitting inside the car?) Is it because of the strength of the attraction between electron and nucleus?

In laws of motion, everything has an equal and opposite reaction, and it applies to all matters in the reality.

If the earth stops moving suddenly just for one second, then everything on earth will be thrown out into space. But sudden rapid movement or sudden stop of motion does not cause the electrons to lose control around the nucleus or atom. Why? (For example: putting the brakes on suddenly in a car while traveling around the speed of $180$ km/h, creates massive momentum transfer and that momentum does not affect the electron's path of the car or the person sitting inside the car?) Is it because of the strength of the attraction between electron and nucleus?

NOTE: Thanks for the edit and I understand the transfer of momentum energy is transferred to the whole system, not just some part but still the momentum is high for an electron when 180 km/h suddenly stops, The whole atomic field will receive the massive vibrations caused by momentum and still the path of the electron is not disturbed in atomic level ? and is that because of the attraction between electrons and the nucleus?

I understand there are no perfect answers always, especially for quantum physics but I would like to ask this question anyway.

In Laws of motion everything has an equal and opposite reaction, it applies to all matters in the reality. If the earth stops moving suddenly just for one second, then everything on earth will be thrown out into space. But sudden rapid movement or sudden stop of motion does not cause the electrons to lose control around the nucleus or atom. Why? (For example: putting the brakes on suddenly in a car while travelling around the speed of $180$ km/h, creates massive momentum transfer and that momentum does not affect the electron's path of the car or the person sitting inside the car?) Is it because of the strength of the attraction between electron and nucleus?

In laws of motion, everything has an equal and opposite reaction, and it applies to all matters in the reality. 

If the earth stops moving suddenly just for one second, then everything on earth will be thrown out into space. But sudden rapid movement or sudden stop of motion does not cause the electrons to lose control around the nucleus or atom. Why? (For example: putting the brakes on suddenly in a car while travelling around the speed of $180$ km/h, creates massive momentum transfer and that momentum does not affect the electron's path of the car or the person sitting inside the car?) Is it because of the strength of the attraction between electron and nucleus?