The great Pyramid named Giza is one of the largest and oldest pyramids in the Giza pyramid complex in Egypt. It is one of seven wonders of the ancient world and hasn’t changed very much at all over time.
A few days ago, when a group of people looked at Gaza’s great pyramid. They saw how the size of the pyramid would interact with resonance frequencies and focus on some electromagnetic waves. Because of how small it is, some electromagnetic waves can be focused on very well.
The important physical thing happens when shortwave stimulation ends to run a system that has more dimensions to run a system. When you look at the size and shape of the pyramid, the length of resonance radio waves is between 200 and 600 meters long.
In this study, we look at how to make theoretical calculations. It should not be used as an explanation for some of the pyramid’s more mysterious parts. And to be even more clear, Pyramid can’t get or get messages from other places because the environment isn’t transparent for the wavelength of the waves. Before this amazing monument was built, we think that people in ancient Egypt were thinking about how to get a good Wi-Fi signal.
For the study, the researchers came up with two models. In the past, the pyramid was built in a place with certain characteristics. In this case, the electromagnetic wave was in the middle of the pyramid. When it comes to real life, it’s very close to where the pyramid’s inner chambers are found in the middle of the building. There is a second model that looks a little more like the real thing. The pyramid is at the top of the plane that is made of the same thing. In that case, resonance waves will spread out and focus on the waves below the base of the pyramid, which is where the pyramid is. This is probably not going to give us any information about the Egyptian tomb, but we can build better nanostructures with this method.
One of the senior authors of the study statement: Egypt’s pyramid has always been a big draw. A molecule that annoys red waves is what we have to think of the Great Pyramid as. We were also interested in the way scientists worked together. Because we didn’t know much about the pyramid’s physical properties, we had to make some guesses about how it looked and worked. Among other things, we thought that there wasn’t a hidden cave inside. With these presumptions, we have found interesting results that can be used in real life.
When we work with nanostructures, our team has a pyramid that is the same size as our team. He wants to take advantage of the things they used to build the Great Pyramid of Giza. Smart materials are used in the nonsense, and they expect to be able to use this focused capacity in the solar cells and say that they will get better results in the next few days.