This paper attempts to unveil the mechanism behind quantum mechanics, and thus to find quick ways to implement instant teleportation. Science fiction often features machines that teleport objects instantaneously from one place to another, and a number of physics journals are now seriously discussing how to use quantum teleportation to achieve these science fiction plots. Quantum teleportation is a technique that uses quantum entanglement to teleport quantum state to any distance. Due to its weird nature, Einstein once described quantum entanglement as "spooky action at a distance." Similar to how ancient civilizations were able to employ weapons utilizing gunpowder in the battlefield without fully understanding the chemical equation of gunpowder explosion, the current physics community has also progressed to real life application of quantum entanglement even though their understanding of this subject is still at the "observed but not fully understood" stage. According to the hierarchy of application, quantum private communication is a first-level application of quantum entanglement (least difficult), quantum computer is a mid-level application of quantum entanglement (moderately difficult), and the transportation of items from one place to another through quantum teleportation is a high-level application of quantum entanglement (extremely difficult). Therefore, it can be inferred, if we understand the mechanism behind quantum entanglement, that we should find a quick way to instantaneously transporting items through space. Einstein once said, "I have thought a hundred times as much about the quantum problems as I have about general relativity." In the last century, various quantum phenomena have been considered as unsolvable puzzles, and even today there has been little progress towards solving these problems. The author asserts that using quantum teleportation to transmit objects is not only inelegant, but also the possibility of a successful execution is little to almost none. This is effect of the physics community not having a full understanding of quantum entanglement. The key to unlocking the mysteries of quantum entanglement is to move past the "observation" stage and perceive the "observer effect" in operation. This paper attempts to employ non-traditional methods to solve these difficult problems, and use the academic method to put forth concrete methods to implement instantaneous teleportation.