Consider electron/photon diffraction, double-slit experiment Official Horror Dunkin’ Donuts you can’t sit with us shirt by tshirtat store. Due to the amplitudes canceling each other the detector won’t detect the incoming particles at certain places Now since we do not know the path taken by an individual electron we can consider the electrons hitting the screen as superposition of the states they would have been in had they taken either of the slits, such a superposition gives us the correct diffraction pattern.
If you are facing problem in understanding the concepts and not able to attempt a variety of questions at the start then you are on the same boat with almost 90% of your batchmates Official Horror Dunkin’ Donuts you can’t sit with us shirt by tshirtat store. It happens with everyone who starts from scratch. First thing you should do is to pay proper attention to your coaching classes and then try to revise each and every concept being taught by teachers after reaching home on the very same day.
What differentiates QM is the fact that the same is the result even if we do single-electron or single-photon experiments multiple times and calculate the diffraction patterns we won’t detect a single event at the place where the probability falls to 0 although our intuition tells us that the single electron should have taken either slit 1 or slit 2 but not both, in which case we should not see such a result. Sorry for digressing by giving the diffraction analogy although the question seeks for a day-day analogy but that is the most correct analogy we can get.