Sirisha Bandla the 3rd space woman from India!

  India's 3rd spacewoman🌌 who is going to space after Kalpana Chawla and Sunita Williams. Her name is "Sirisha Bandla". Today in this blog I am telling you all about 🙂 "Sirisha bandle". The Spacewoman is going to space on July 11, 2021. By "Virgin Galactic" (cool name to hear) as a space vehicle crew. Whose main responsibility work will be to do research.

Who is Sirisha bandla?

Sirisha Bandla is an Indian-American woman♀️ who will be going to space on 11 July 2021. Sirisha Bandle is from South Indian Viyawada/Guntur. She is almost 30 years old. And she joined "Virgin Galactic" in 2015. When She was only 25year old. She is now Vice President of Government Affairs at Virgin Galactic.

Education of Sirisha Bandla:

*  Sirisha Bandla has done (B.sc) Bachelor of Science in Aerospace, Aeronautical, and Astronautical       Engineering. She started reading all this in 2006 and completed all this stuff in 2011 at Purdue University.

* M.BA (Master of Business Administration) at the George Washington University from 2012 to     2015. 

Sirisha Bandla Skills & endorsements:

As her LinkedIn page, her skill mentioned Aerospace, Aerospace Engineering, and space systems.

In Aerospace special skilled at commercial spaceflight.

Know lets us know about space travel.

What is Space?

Space is the atmosphere that exists beyond the Earth and between celestial bodies. The outer space is completely empty - it is a heavy machine that contains a concentration of particles, especially plasma of hydrogen and helium, as well as electromagnetic radiation, magnetic force, neutrinos, dust, and cosmic rays. The basic temperature of outer space, as set by the background radiation from the Big Bang, is 2.7 kelvins (-270.45 ° C; -454.81 ° F). The plasma between galaxies accounts for about half of the baryonic (normal) matter in the universe; has a value of less than one hydrogen atom per cubic meter and a temperature of millions of kelvin. The focus of the story of the universe has been combined into stars and galaxies. Studies show that 90% of the glare in many galaxies is in the dark, in the form of dark matter, which is associated with gravity but not electricity. The observation suggests that most of the energy in the visible universe is dark energy, a kind of vacuum energy that is not well understood. The intergalactic space takes up most of the space of the universe, but even galaxies and star systems contain almost the entire empty space.

Outer space does not start at a height above the surface of the earth. The Kármán line, located 100 km (62 mi) above sea level, is commonly used as an outdoor space for space contracts and aerospace record keeping. An international space law framework was established by the Outer Space Treaty, which came into effect on October 10, 1967. The treaty prohibits any claims of sovereignty and allows all provinces to freely explore space. In addition to documenting UN resolutions for peaceful use of space, anti-satellite weapons have been tested on Earth orbit.

Humans began to explore the physical space of the 20th century with the advent of high-flying balloon planes. This was followed by the development of rocket aircraft and, after that, the crewed Earth orbit, first discovered by Yuri Gagarin of the Soviet Union in 1961. Due to the high cost of space entry, human space travel is limited to minimal travel of the Earth and the Moon. On the other hand, an unmanned spacecraft has reached all the known planets in the Solar System.

Outer space represents a challenging area for human testing due to the dangers of wind and radiation. Microgravity also has a detrimental effect on the human body causing muscle decay and bone loss. In addition to these health and environmental problems, the economic costs of setting things, including people, in space are very high.

The size of the universe is unknown, and it may be infinite in scale. According to the Big Bang theory, the early Universe was a hot and dense atmosphere of about 13.8 billion years ago that grew rapidly. Nearly 380,000 years later the Universe was cool enough to allow protons and electrons to combine and form hydrogen - the so-called recombination era. When this happened, matter and energy were reduced, allowing photons to move freely in the ever-expanding space. The story that continued to follow the first increase since it fell to the maturity of the earth to create stars, galaxies, and other astronomical objects, leaves open space that forms what is now called outer space. Since light has a limited speed, this view also reduces the size of the physical universe directly.

The current state of the universe is determined from the background measurements of the cosmic microwave using satellites such as the Wilkinson Microwave Anisotropy Probe. This observation shows that the geometry of the physical space is "flat", meaning that the photons in the orbits are sometimes the same as they travel in space until they reach the edge of the visible universe, except for the gravitational force of space. with the relative mass of the universe and the rapid expansion of the Universe, it shows that space has vacuum-free energy, called black energy.

Estimates estimate the current energy potential of the Universe by the equivalent of 5.9 protons per meter, including black energy, black matter, and baryonic matter (a common atomic element). Atoms account for only 4.6% of total energy or the density of one proton in four cubic meters. The vastness of the Universe is clearly not the same; ranging from the highest concentrations of galaxies — including the highest concentrations in galaxies, such as planets, stars, and black holes — to large void conditions with very low energy, at least in material terms. In contrast to black matter, black energy seems to be unstoppable in galaxies: although dark energy can look at most of the Universe's supernatural powers, the influence of dark energy is 5 orders of magnitude smaller than the effect of gravity from matter and dark matter within the Milky Way. 

So in this whole Universe where we are?

The answer to this type of question depends on you...(Write down below comment box)

How space travel is done?

According to (ATO) to today Technology we do not open any space portal or wormhole and reach to our dentition. This type of technology is under development. So we use spacecraft and space stations to travel and live in space. 

1st thing to travel in space we must have rocket/Spacecraft technology. Then support team and a lot more...

In simple way space travel is done by spacecraft in which 1st Rocket will take humans to space and then this will reach the spaceport or ISS(International space station). Then Our crew members will go to ISS(International space station) from their spacecraft. If there is no ISS(International space station) then the spacecraft must be designed to handle all experiment that is going to take place inside it. I hope you must have understood. 

In which rocket Sirisha Bandla and other crew are going to space?

With the help of the VSS Unity SpaceShipTwo rocket, they are going to orbit our celestial body like planet earth.

If you are interested to know more about rockets and Top 10 Rockets then click here

More about spacecraft

The spacecraft is a space vehicle or machine designed to fly in space. A typical type of satellite, a spacecraft is used for a variety of purposes, including communications, geography, weather, navigation, colonial space, planetary exploration, and human and material transport. All objects in space except single-stage cars cannot enter space on their own and require a launch carrier (carrier rocket).

In a sub-orbital plane, the space shuttle enters space and returns to the surface, without gaining enough energy or speed to make a full orbit around the Earth. With space planes, the spacecraft imposes closed boundaries on the earth or other celestial bodies. The spacecraft used for human space travel carry passengers as crews or passengers from start-up or orbit (space stations), while those used for robotic space transmissions operate independently or by telephone. Robotic spacecraft used to support scientific research are spacecraft. The robotic spacecraft that revolve around the planet Earth are artificial satellites. So far, only a few star-studded routes, such as Pioneer 10 and 11, Voyager 1 and 2, and New Horizons, are on trails that leave the Solar System.

Orbital spacecraft can be found or not. Most are not. Reversible spacecraft can be subdivided into re-entry into Earth into wingless spacecraft and wingless spacecraft. A recyclable spacecraft can be regenerated (can be re-announced several times, such as SpaceX Dragon and Space Shuttle orbiters) or active (such as Soyuz). In recent years, we have seen many space agencies turn to renewable energy.

Humanity has benefited from space travel but only a few nations have orbital launch technologies: Russia (RSA or "Roscosmos"), the United States (NASA), member states of the European Space Agency (ESA), Japan (JAXA) China (CNSA), India (ISRO), Taiwan (National Chung-Shan Institute of Science and Technology, Taiwan National Space Organization (NSPO), Israel (ISA), Iran (ISA), and North Korea (NADA). develop or improve orbital delivery technology, without government agencies. The most prominent examples of such companies are SpaceX and Blue Origin.

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