The last two phenomena could be understood by stating that any particle has the same properties as the universe as a whole (unconventional US cosmologist Max Tegmark says "You are made up of quantum particles, so if they can be in two places at once, so can you." We can say "The universe is made up of quantum particles, so if they can be in two places at once, so can the universe." There need not be any such thing as parallel universes, however (the parallel-universes, also called the many-universes or many- worlds, interpretation of quantum mechanics was developed by American physicist Hugh Everett III in 1957). The universe's being in two places simultaneously could mean it's in the same space-place as any or all of its particles. It could also be in the same time-place as any or all of its earlier or later selves because there can be be no space without time). Jack Harris, an Applied Physicist at Yale University says quantum mechanics describes a crazy microscopic world where particles whiz around at blistering speeds and routinely violate the classical laws of physics we take for granted. Jack Harris’s goal is to take advantage of the “really strange, even mystical” laws of the microscopic and apply them to problems in our macroscopic world. “The ultimate eureka moment would be to suddenly realize that a [macroscopic] object is doing something that is absolutely forbidden by classical physics,” he says. If we look closely at the universe by not restricting it to the classical physics which preceded the quantum principle, we can comprehend how the macroscopic universe could behave quantum mechanically and violate classical physics. It´s easy to imagine all parts of the universe being in contact