Chapter 815 - 816 Swallowing Star Giant Structure

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Chapter 815: Chapter 816 Swallowing Star Giant Structure

The collectors mistakenly predicted the construction speed of the cluster.

Due to the interference of the Great Destruction, the swallowing giant that the collectors wanted to build did not go smoothly. After suffering the second devastating supernova strike, the wreckage of the undiltling giant and the supernova explosion.

The collectors who thought over and over decided to build separately and let the components of each swallowing giant have superluminal capability, so that when the great destruction comes, the components can leave at superluminal speed with the cluster, and the collectors do not have to repeat manufacturing.

The volume of the swallowing giant is very large, and such a structure naturally cannot be a whole like ordinary giants.

It is closer to the ripple giant structure, which is composed of multiple large-scale giant structures.

According to the collector's original conception, this giant structure can at least quickly swallow all planets, not only solid planets, but also the 'fat' gas giants.

For this reason, the size of the swallowing giant must not be less than a body with a mass of 1.5912x10^29kg. This mass is a dividing line, above which is a star, and below it is a variety of planets and a gas giant star that has failed to merge.

So what is the specific volume of non-stellar objects with a mass of 1.5912x10^29kg? It is about 84 times the volume of Jupiter.

Based on this, the amount of stars in the swallowing giant must be 84 times larger than Jupiter, and considering the floating error value, the capacity is initially set at 90 times the volume of Jupiter.

The collector first builds a planetary gravitational ring equivalent to twice the diameter of the earth, and then builds a circular pipeline to store negative material in a distance.

Therefore, this gravitational ring initially has the ability to distort the superluminal long-speed navigation around itself.

However, this does not mean that the construction of the swallowing part is completed. The diameter of the ring determines the swallowing capacity of the swallowing giant structure. Therefore, according to the original plan, the diameter of the gravitational ring must be equivalent to 90 times the diameter of Jupiter's celes body volume.

This huge circular snail pipe is based on a gravitational ring and extends outward in a circle, forming a disk surface. The diameter of the disk is equal to the diameter of the previously constructed disk components.

The pipe on the second floor of the innermost ring is fixed on the innermost gravitational ring by a small gravitational ring, which has a reinforcement effect.

During the construction, the collector filled the inner ring pipe with some negative substances to resist the structural pressure from the upper layer.

Same as the problem encountered by the previous disk, the structure of this ring is also unstable in the vertical direction of the circle, because nothing can maintain stability in this direction.

Therefore, the collector adopts the same buckle design idea as the previous disk structure, and ensures the vertical structural strength of the circular surface through the long gravitational ring.

This disk structure extends back for a distance, and there is a ring-shaped pipeline structure. By injecting negative substances into the circular pipeline structure, this component can achieve superluminal speed.

Although the volume of this disk component is large, the comprehensive quality is not as good as that of the previous disk. Therefore, according to the formula for balancing negative mass, there are not many negative mass required for superlumination.

Due to the scarcity demand for gravitational rings, the construction time of the latter disk is much faster than that of the previous one.

After preparing the two most important components, the collectors began to combine the swallowing giant.

The combination is not complicated. Two star-swallowing giant disk components are arranged. The circular surface is on the same plane, maintaining a distance of about 25 million kilometers from each other to reduce the error through laser proofreading.

Then, in the part extending from the long gravitational rings of the two disk components, a small gravitational rings are attached to each end, and then a small gravitational rings are used to connect the two disks into a whole by gravitational rings.

Yes, the appearance structure is somewhat similar to that of the chain, but the chain is connected through electromagnetic molecular materials, while the giant component is connected by the gravitational ring, which magnifies the small-scale structure to a larger scale.

Even, the gravitational rings can be entangled into a chain across stars.

Of course, considering the gravity of the gravitational ring itself, the mass of the objects connected at both ends of such a chain must be greater than the gravitational ring chain itself.