In order to get around the issue of Newton’s Third Law of Motion and the inability of matter in travelling quicker than the light speed, we can look into the detail of the relationship between space and time. Taken together, space, composed of three measurements (up-down, left-right, and forward-backward) and time are all part of the space-time continuum.
It’s necessary here to look into the Einstein’s research on the space-time continuum and how it associates to the combine journeying throughout the space. In his Unique Concept of Relativity, Einstein declares two postulates:
- The speed of light being (about 300,000,000 meters per second) is the same for all present observers, their movement doesn’t matter here.
- Anyone moving at a constant speed should follow the same physical rules.
Putting these two ideas together, Einstein noticed that space and time are connected — an item shifting actually encounters time at a more slowly amount than one at rest. Although this may seem outrageous to us, we usually travel extremely slowly when compared to the speed of light, so we don’t notice the hands on our watches ticking more slowly when we’re running or journeying on a plane. Researchers have actually shown this fact by sending atomic clocks up with a very high in speed rocket ships. They came back to the earth a little bit behind the clocks on the ground.
Source: https://www.britannica.com/science/space-time, from Encyclopedia Britannica.
What does this mean for Mr. Kirk and his team? The nearer an object gets to the speed of light, that object actually encounters time at a considerably more slowly amount. If it were journeying securely at near to the speed of light to the middle of our galaxy from earth perspective, it would take 25,000 a very extensive period of World time. For the team, however, the trip would probably only take a Decade.
Although that period of time might be possible for the individuals on board, we’re provided with yet another problem — a Federation trying to run an intergalactic society would run into some problems if it took 50,000 decades for a starship to hit the middle of our galaxy and come back.
So it has to avoid the speed of light to be able to keep the travelers on board in synch with Federation time. Simultaneously, it also must reach rates of speed quicker than that of light to be able to move around the galaxy in a joyful manner. Unfortunately, as Einstein declares in his Unique Concept of Relativity, nothing is quicker than the speed of light. Space journey therefore would be difficult if we’re looking at the special relativity.
According to Einstein’s Common Concept of Relativity, issue turns the information of area and time.
According to Einstein’s Common Concept of Relativity, issue turns the information of area and time. The distortions of the space-time procession even impact the actions of mild.
That’s why we need to look at Einstein’s later theory, the Common Concept of Relativity, which explains how severity impacts the shape of area and flow of your energy. Imagine a stretched-out piece. If you placed a go-karting football in the midst of the piece, the piece will great as the weight of the football drives down on it. If you placed a football on the same piece, it will move towards the go-karting football. This is a simple design, and area doesn’t act like a two-dimension bed piece, but it can apply to something like our solar system – more large things like our sun with great area can change the orbits of the nearby planets. The planets don’t fall into the sun, of course, because of the top rates of speed at which they journey.