![]() These panels also provide experimental evidence for another speculative scientific theory. In The Indestructible Hulk #8, the question of whether or not the Hulk could lift Mjolnir arose, and no less a scientific authority than physicist Bruce Banner (the Hulk’s alter ego) provides peer-review and approval of my "graviton emission proposal," as shown here: I shared this information with Mark Waid, the writer at the time of Marvel Comics' The Indestructible Hulk, at the start of a storyline where the Hulk would have an adventure with Thor. The above arguments were described in an article I wrote on "The Materials Science of the Avengers" for Hollywood Chemistry, a collection of essays published in 2014 by the American Chemical Society (who says this isn’t the Marvel Age of shameless plugs?). All motion is relative, and the amazing properties of uru metal, which scientists are just beginning to explore (or would be, if it actually existed) must include the ability to alter its rest frame in mid-flight, so that its motion, when viewed from the perspective of a stationary observer, will be such that it returns to Thor’s hand.Īn important check on any scientific result is the review and vetting by other scientists. And both readers are in fact racing at a dizzying speed of 67,000 miles per hour as the Earth orbits the sun, which in turn is in motion about the center of the Milky Way galaxy. Of course, from the point of view of the reader on the train, she is the one who is stationary, and it is the bench warmer who is moving west at 40 miles per hour. In physics, the only valid answer to the question: How fast are you moving? is: Who’s asking? Right now if you are reading this sitting on a bench at a train station, you are at rest, while another reader on a train speeding by you is moving east at, say, 40 miles per hour. ![]() The ability of uru metal to alter its interaction with gravitational fields may also account for another astounding property of Mjolnir-that when thrown, it can alter its trajectory and move, seemingly of its own volition, returning to Thor’s hand. Once the lifting force is stopped, the excess graviton emission also ceases. The greater weight will not damage the tabletop, as only enough gravitons are emitted to balance out all upward forces, to keep the hammer stationary. When Tony and Rhodey simultaneously exert a larger upward force, the emission rate of gravitons increases, to again neutralize their efforts. ![]() Thus, when an "unworthy" person applies an upward force, the uru metal increases the hammer’s weight to exactly cancel this lift, and the hammer remains unmoved. Gravitons are conjectured to transmit the gravitational force, and if an object emits additional gravitons, it is equivalent to increasing its mass. On Earth, these fundamental particles have not been experimentally confirmed to exist, but as stipulated, the Asgardians are ahead of us scientifically. So where does the additional downward force come from? One can only conclude that a unique property of uru metal is that, under the proper stimulus, it can emit large quantities of gravitons. When Tony Stark tries to lift Mjolnir using his Iron Man glove, he exerts a large upward force, greater than its weight, and yet the hammer remains at rest. Thor then hefts the hammer and casually flips it into the air. In this clip, the Avengers are relaxing in their street clothes in Tony Stark’s penthouse apartment, and are discussing the "enchantment" on Thor’s hammer, Mjolnir, which stipulates that it can only be lifted by those "deemed worthy," and whoever does so will "possess the power of Thor." Thor places his hammer on a coffee table (actually, as shown below, it is resting partially on some books on the table), and various heroes attempt to pick up the hammer, to no avail. 28 during an episode of Marvel’s Agents of S.H.I.E.L.D. The discovery by astrophysicists that the expansion of the universe is accelerating implies that 75% of the universe is composed of "dark energy." And a recent trailer for Avengers: Age of Ultron suggests an explanation for the long-standing open question: can the Hulk lift Thor’s hammer? The Large Hadron Collider at CERN has found the Higgs boson, the last missing particle in the Standard Model, advancing our understanding of the origin of the mass of fundamental particles. These are exciting days for physics, with several recent experimental observations providing important information on some of the most important mysteries of nature. This content can also be viewed on the site it originates from.
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