<h4>Chapter 816: Chapter 817 Swallowing the Star</h4>
A stable single-star system with a yellow dwarf with a mass of three times the mass of the Sun and a gas giant with 30 times the mass of Jupiter.
The strong gravity of stars ands entangles each other, building a very stable celestial structure that will not be easily captured by stars of other star systems.
Today, however, the tranquility of the ster system has been broken, and outsiders have entered the ster system from elsewhere.
The huge light emitted, and the scale of the source of this light seems to be close to the size of a small-mass red dwarf. At first nce, it looks like a small white dwarf suddenly appeared in the ster system.
The scattered light pressure even pressed the sr wind of the yellow dwarf, causing it to divert, and the gas giants even flew tens of thousands of tons of gas matter into the universe.
The light is fleeting, revealing a huge structure with a t structure. The circr surface of the two disks is on the same horizontal ne, connected by two long gravitational rings.
The long gravitational rings ensure that the two disks will not collide with each other because of gravity.
Overlooking two circles and a pair of connected gravitational rings, the overall outline of such a huge structure is simr to the oval of the yground runway.
This is the star- swallowing giant built by the collectors, which has now beenpleted and is being tested by the star- swallowing test.
A powerful electromaic radar wave is released from the swallowing giant to scan the environment in the star system.
Then, the swallowing giant locks the target gaseous giant, the equivalent to 30 times the mass of Jupiter.
The swallowing giant suddenly began to shift and rose to a high speed in a very short time. It can be said that it only took a few minutes, and the swallowing giant with great mass reached near the target gaseous giant.
The swallowing giant does not have an inertial brake. Traditional mechanics seems to be dead at this moment. The swallowing giant is still moving at a high speed one second, but the next second abruptly stands near the gaseous giant.
The swallowing giant aimed its middle part, that is, the gap between the two long gravitational rings, at the gaseous giant, and then began to gradually approach the gaseous giant.
The gas overflows, and the mass of the swallowing giant itself tore the giant itself, allowing some of the gas above to fly into space.
Throughser ranging, the swallowing giant urately ces the gaseous giant in the middle. In the process of descent, the part connected with the long gravitational ring is the flip axis. The two hugeary-like circles are slowly flipping, and finally the circle faces are facing the gas giant.
"Laser proofreading to test whether it remains parallel."
From the outline of the huge circle, a beam of proofreadingser is released to determine whether the two huge circles of the swallowing star giant structure remain t in parallel.
"The test is over, confirm the parallel, and wait for the next instructions."
"Start superluminal speed, go to the destination, coordinates..."
All the gravitational rings of the whole swallowing giant are making negative matter, and the negative material extracted from the gravitational ring in front of it will pass through and transfer to the rear disk by relying on the pipeline on the long gravitational ring.
The negative material produced by two long gravitational rings will also transfer the negative material to therge disk behind it through the pipe attached to it.
Therge disk behind will also produce negative substances. The three parties work together to produce negative substances, so that the huge disk canplete the umtion of negative substances in a short time and achieve superluminal speed.
The swallowing giant, together with the gaseous giant that exists in the middle of two long gravitational rings, began to move together with the umtion of negative mass in therge disk behind, which did not conform to ssical mechanics, and entered the speed of light.
The data of the experiment was quickly sent to the cluster leader.
"Not ideal?" The cluster leader asked, "Isn''t there no need to consider momentum?"
The collector who understands the situation exined, "Indeed, although there is no need to consider the momentum of elerating the to the speed of light, the problem is that the is originally an object in motion and needs to change the state of the, or change the motion state of the swallowing giant itself. The two need to remain rtively still, no Then there is a risk of collision."
Hearing the exnation of his peers, the leader of the cluster also understood what was going on. He pondered and muttered to himself.
"...Whether it is changing the speed of the swallowing giant itself or the speed of the itself, these are too energy-consuming, and the mass of both is very huge."
"In the past, there was a star bomber n, and it was more reliable to change the motion state of the." Some collectors put forward ideas.
However, it was soon refuted by other collectors.
"That''s the clever method of will. Thes were originally orbiting around the stars at a high speed. At that time, arge part of the empire''sary advances were only to deflect the direction of thes and further increase the speed of thes in their original speed. Normally, although for us now, it changes a. The motion state is not technically difficult, but there is no way to achieve it quickly in a short time. The greater the mass of the star, the longer it will take to change the state of motion, which is not consistent with our original idea of building a star-swallow giant structure.
"In this way, the star-swallowing giant structure is a little too chicken ribs."
The purpose of the swallowing giant structure is to enable the cluster to collect more material resources. If not many resources are obtained but put the material resources in, the collectors will not ept it.
"It can''t be said that chicken ribs are still useful in some ces, or we can further try to amplify the volume of the star-swallowing giant structure."
The cluster leader put forward his views on the star- swallowing giant.
Its idea surprised the collectors and then reacted.
"A closer magnification? That is to say, the superluminal transport object of resources has been transferred froms to stars?
The leader of the cluster answered with determination, "Yes, the resources of ster celestial bodies are veryrge, and there is no way topares with them. Giant creatures cannot exploit their resources in a short time. As a goal of ultra-light transportation, it is very suitable, and a one-time transportation can be collected for a long time."
"Moreover, stars are different froms. The speed of the''s motion fluctuates too much, but the speed of stars is in a stable range. As long as we find a suitable speed value, we can invest less resources to change the state of the star''s motion."
"As for the current star- swallowing giant structure that carriess, it can be used to carry thoses that have alien civilizations, such as thest Dalian civilization mother, which wastes a lot of time over light speed.
The statement of cluster leaders has been agreed by the collectors. If the star- swallowing giant is used to collect star resources, it will undoubtedly be profitable and profitable. The size of stars is by no meansparable to that ofs.
"What should I do next?" Some collectors asked.
The cluster leader replied, "The construction of the star giant requires a long time of resource reserves, as well as a stable environment. Not to mention the stable environment, in terms of resource reserves, we do not have material resources supported by ethnic groups. Based on the resource collection capacity of the existing cluster, I am afraid it will take a long time. "
"So we should consider how to hand over the will to us to carry out the task."
Hearing the cluster leader mention the task of will, the collectors immediately understood what the other party was saying.
"I see."