![]() ![]() In 1935, Einstein and scientist Nathan Rosen expanded on the concept with general relativity, proposing the possibility of “bridges” spanning space-time. A space-time conduit may connect the entrances of both black and white holes. He talked about a “white hole,” a possible temporal reversal of a black hole. While studying another scientist’s solution to the equations in Albert Einstein’s theory of general relativity, Austrian physicist Ludwig Flamm discovered there was another alternative. ![]() Wormholes were originally postulated in 1916, but they were not named such at the time. The bridge’s deflection of photons (gravitational lensing) is investigated. In general relativity, our results are contrasted to a previously known analytic solution for a bridge, which is a specific instance of the general solution. The substance creating the bridge must have an equation of state that is sufficiently rigid and anisotropic. ![]() The relevant bridge equations are simplified to a form that allows for easy analysis and numerical solution. But be cautious: wormholes pose the risks of abrupt collapse, intense radiation, and hazardous interaction with unusual materials.Įinstein Rosen bridges (wormholes)-hypothetical objects that topologically connect distinct places in the Universe-are proven to be static Einstein equation solutions. Einstein Rosen Bridges are predicted by general relativity theory. According to the Einstein Rosen Bridge hypothesis, a theorized tunnel through space-time might offer shortcuts for long travels throughout the cosmos. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |