When we take photos and look at the picture within some photo editor we can zoom in and zoom in until we get to a certain point where it's just one pixel. This is similar in the real world where we can look at something under an electron microscope and zoom down to atom level.
Physicists were baffled at the results because they were expecting a different pattern (just 2 straight lines), so they added some observational equipment and then pattern changed to two lines. WHOOOAAAA... The simple act of observing electrons changed the electron behavior
Below is a great video explaining this phenomenon in easy to understand detail.
Knowing this fact, the question "If a tree falls in a forest and no one is around to hear it, does it make a sound?" starts to become a very interesting question.
You might have heard of a transmission protocol called TCP/IP, it's the fundamental transmission protocol that the internet run's on. So everything we see on our internet browsers are being delivered using this transmission protocol. When information is being sent from a server to your internet browser, the data delivered will have some flaws in the transmission due to noise or interference. However when the transmission is being sent, it will include with some error correcting codes that will ensure that the data was sent correctly, if not it will automatically be resent to insure flawless data transmission.
Dr. James Gates has been studying string theory for a while and he discovered these same error correcting codes in his deep research of string theory. String theory explained here:
This video explains how string theory contains computer code:
It's like the super computer we are all living in is trying to save resources and only behave properly when observed. If these electrons are behaving this way, and they are the building blocks of life, is it such a stretch that everything we observe is being generated by a simulation? The error correcting codes that Dr. James Gates found seems to confirm that the simulation computer is ensuring that we are seeing flawless data.