How the Zergs were Made

Chapter 817 Devouring Stars and Earth

A stable single star system with a yellow dwarf about three times the mass of the Sun and a gas giant about thirty times the mass of Jupiter.

The strong gravitational forces of stars and planets are entangled with each other, creating a very stable celestial structure that will not be easily captured by stars in other star systems.

However, today, the tranquility in the star system has been broken, and outsiders have entered this star system from other places.

Huge rays of light radiate out, and the scale of this source of light seems to be close to the size of a small-mass red dwarf star. At first glance, it looks like a small white dwarf star suddenly appeared in the star system.

The scattered light pressure even overwhelms the yellow dwarf's solar wind, causing it to shunt, and the gas giant even has tens of thousands of tons of gas matter floating into the universe.

The light was fleeting, and what was revealed was a huge structure, which was flat. The round surfaces of the two disks were on the same level, and they were connected to each other by two long gravitational rings.

The long gravitational ring ensures that the two discs will not collide with each other due to gravity.

Overlooking the two circular faces and a pair of connected long gravitational rings, the overall outline of such a huge structure resembles the oval shape of a playground track.

This is exactly the star-eating giant structure built by the collectors. Now it has been constructed, and the actual performance of this giant structure is being tested through the star-eating test.

A powerful electromagnetic radar wave is released from the star-eating giant to scan the environment in the star system.

Then, the star-eating giant locks on to the target gas giant, the planet equivalent to thirty times the mass of Jupiter.

The star-swallowing giant structure suddenly began to move, and it increased to a very high speed in a short period of time. It can almost be said that only a few minutes passed, and the star-swallowing giant structure with a huge mass arrived near the target gaseous giant star.

The star-swallowing giant structure does not have inertial braking, and traditional mechanics seems to be dead at this moment. The star-swallowing giant structure was still moving at a high speed one second, but suddenly stopped near the gas giant in the next second.

The star-eating giant aligns its middle, that is, the gap between the two long gravitational rings, at the gas giant, and then begins to gradually approach the gas giant.

The gas overflowed, and the mass of the star-eating giant structure tore the giant star itself, causing a part of the gas above to fly into the outer space.

Through laser ranging, the star-swallowing giant precisely places the gas giant in the middle. During the descent, the two huge planet-like circular surfaces are slowly flipping with the part connected to the long gravitational ring as the flip axis. , and eventually the circular face will face the direction of the gas giant.

Laser calibration, testing whether it remains parallel.

From the outline of the huge circular surface, beams of calibration lasers are released, and through laser ranging, it is determined whether the two huge circular surfaces of the star-swallowing giant structure are parallel to each other.

The test is over, confirm the parallelism, and wait for the next instruction.

Start faster than the speed of light, go to the destination, coordinates...

All the gravitational rings of the entire star-swallowing giant structure are producing negative matter, and the negative matter produced by the front gravitational ring will pass through the pipes on the long gravitational ring and be transferred to the rear disc.

The negative matter produced by the two long gravitational rings will also pass through the pipes attached to them, and transfer the negative matter to the large disc behind.

The large disc at the rear will also produce negative matter, and the three parties jointly produce negative matter, so that the huge disc can complete the accumulation of negative matter in a relatively short period of time and achieve superluminal speed.

The star-eating giant structure, together with the gaseous giant star in the middle of the two long gravitational rings, began to move together with the accumulation of negative mass in the large disk behind it, which did not conform to classical mechanics, and soon entered superluminal speed.

Data from the experiment was quickly sent to the cluster leader.

Not very ideal? The cluster leader asked back, Isn't there no need to consider momentum?

The collector who understands the situation explained, Indeed, although the acceleration of a planet to superluminal speed does not need to consider the issue of momentum, the problem is that the planet is originally an object in motion, and it is necessary to change the motion state of the planet, or change the star-eating giant structure. In their own state of motion, the two need to remain relatively still, otherwise there is a danger of collision.

Hearing the explanation of the same race, the group leader also understood what was going on, it pondered and muttered to itself.

...Whether it is changing the speed of the star-eating giant itself or changing the speed of the planet itself, these are too energy-consuming, and the masses of both are very large.

In the past, there was a plan to change the planet's motion state, and it was more reliable. Some collectors proposed ideas.

However, it was quickly refuted by other collectors.

That's a tricky method used by the will. The planet was already revolving around the star at a high speed. At that time, a large part of the planetary propulsion against the empire was just to deflect the direction of the planet and further increase the speed of the planet from the original speed. Normally speaking , although it is not technically difficult for us now to change the motion state of a planet, but there is no way to quickly achieve it in a short period of time. The greater the mass of the star, the longer it will take to change the motion state. The original idea of ​​Juju didn’t fit.”

From this point of view, the star-swallowing giant structure is a bit too tasteless.

The purpose of the construction of the star-swallowing giant structure is to allow the cluster to collect more material resources. If they do not get much resources but put material resources in instead, the collectors will not be able to accept it.

It can't be said to be tasteless, some places can still come in handy, or we can further try to enlarge the size of the star-swallowing giant structure.

The leader of the cluster puts forward his views on the star-swallowing giant structure.

Its thought surprised the collectors for a moment, and then they reacted.

A closer magnification? That is to say, the superluminal transport objects of resources are transferred from planets to stars?

The leader of the cluster replied firmly, Yes, the amount of stellar-level celestial body resources is very large, and planets cannot be compared with them. It is impossible for giant creatures to exhaust the resources in a short time. The target is very suitable, and it can be collected for a long time with one-time transportation.”

Besides, stars are not the same as planets. The movement speed of planets fluctuates too much, but the movement 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 motion state of stars.

As for the current star-eating giant structure that transports planets, it can be used to transport those planets that have bred alien civilizations. Like the home planet of the Dali civilization last time, it wasted a lot of time to make it exceed the speed of light.

The statement of the cluster leader has been recognized by the collectors. If the star devouring giant structure is used to collect star resources, it will undoubtedly make money, and it will be a lot of money. The size of a star is by no means comparable to that of a planet.

What should I do next? a collector asked.

The leader of the cluster replied, The construction of a star megastructure requires a long-term resource reserve and a stable environment. Leaving aside the stable environment, in terms of resource reserves, we do not have the material resources supported by the group. We only rely on the existing cluster I am afraid that we will have to wait for a long time for the resource collection ability.

So we still need to consider how to carry out the task entrusted to us by the will.

When the leader of the swarm mentioned the mission of the will, the gatherers immediately understood what the other party was talking about.

Understood.