![]() ![]() In neither case does the light travel from the source to the object faster than c, nor does any information travel faster than light. Similarly, a shadow projected onto a distant object can be made to move across the object faster than c. If a laser beam is swept across a distant object, the spot of laser light can easily be made to move across the object at a speed greater than c. In other words, a comet at such a distance is superluminal in a geostatic, and therefore non-inertial, frame. The circumference of a circle with a radius of 1000 AU is greater than one light day. ![]() Comets may have orbits which take them out to more than 1000 AU. It is also possible on a geostatic view, for objects such as comets to vary their speed from subluminal to superluminal and vice versa simply because the distance from the Earth varies. ![]() In this frame of reference, in which Proxima Centauri is perceived to be moving in a circular trajectory with a radius of four light years, it could be described as having a speed many times greater than c as the rim speed of an object moving in a circle is a product of the radius and angular speed. Proxima Centauri, the nearest star outside the Solar System, is about four light-years away. In the following examples, certain influences may appear to travel faster than light, but they do not convey energy or information faster than light, so they do not violate special relativity.įor an earth-bound observer, objects in the sky complete one revolution around the Earth in one day. Neither of these phenomena violates special relativity or creates problems with causality, and thus neither qualifies as FTL as described here.
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