According to a new report, Russia may have just launched a new secret weapon into orbit as part of a planned launch.
The US military has expressed concern over the mysterious Russian launch after finding five orbital bodies leaving the missile instead of four, as previously indicated.
The US Combined Space Operations Center (CSpOC) believes that either the upper stage of the rocket had been broken in half or the Russians had held part of the launch secret.
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Russia may have just launched a new secret weapon into orbit as part of a planned launch, according to a new report ( File photo, Soyuz)  The rocket, launched by Plesetsk Cosmodrome In Western Russia, three new communication satellites should be launched.
Together with the rocket upper stage, a total of four rotating bodies would have formed.
It is not uncommon for governments to bring satellites into orbit without foreign competitors being informed, as the in-depth investigation by News Rep.
shows. However, this latest release is particularly worrisome, as Russia has been accused of releasing "Inspector Satellites" several times.
It is believed that these satellites are armed and could pose a serious threat to the orbit of other countries.
They could destroy other satellites by pushing them into the Earth's atmosphere, experts say.
It is believed that these satellites (stock image) are armed and could seriously endanger other countries' orbit
Earlier this year, a senior US official (UN) faced unusual activity Warned in space Russia could be the proof that the country is preparing a "combat laser system".
Yleem Poblete, Deputy Secretary for Arms Control, Verification and Compliance, told the UN that the United Nations and the United States of America, the United States, is concerned about the behavior of the so-called "Space Inspector Inspector" of Russia and his unusual activity.
The official warned the congregation that Russia had received a "combat laser system" that would be able to shut down American satellites
Dr. Poblete claims that this proves the difference between the diplomatic rhetoric of Russia and the actions of its military.
Dr. Yleem Poblete was sworn in as Deputy Secretary of State for Arms Control, Verification and Compliance on April 30, 2018.
She had previously expressed concern over the strange behavior of the Russian satellite launched in October 2017, saying the behavior was "not with everything that was seen before ".
Dr. Poblete said this was an indication of Russia's intention to militarize space with offensive weapons and said the discrepancy between Russia's public demeanor and its true intentions was growing.
To the United States, this development is further proof that the Russian military actions are not in line with their diplomatic rhetoric, "said Poblete.
The US is working on a similar plan, its military with an initiative in the
US President Donald Trump has recently announced his plan to include a space force plan in Budget 2020.
Despite the US intention, the global superpower is increasingly concerned about 19659028] How to make an emergency landing in a Soyuz rocket Dramatic 7G and 4,970 km / h balloon entry of the two astronauts
The astronauts of the Soyuz MS-10 are said to have switched to "Ballistic Descent" mode once they have been informed of the second-stage booster disorder.
This means that the kernel automatically broke away from the fever booster booster and turned back to the earth.
The rocket came at a much sharper angle than normal, allowing the vehicle to head for the ground as fast as possible.
It is believed that the rocket was traveling at a speed of more than 8,000 miles per hour (12,800 km / h) during its descent.
The astronauts had experienced a G-force pressure of up to 7G.
Rockets use boosters to deliver the necessary thrust from Earth and slow down the atmosphere.
They set the trajectory for the flight, and if they are under-loaded, the missile can be sent in the wrong direction.
The Soyuz MS-10 rocket had four first-stage boosters tied to the central core, I housed the second-stage booster.
A booster can fail for a variety of reasons, including improper fueling, mechanical errors, computer errors, and more.
In the event of a booster failure, the flight control is normally stopped by the mission control to avoid endangering the astronauts on board.
The rocket is placed in an emergency landing procedure, where the main module, which holds all cargo and any astronauts aboard, separates early from the rocket.