The Hubble Space Telescope

The Hubble Space Telescope was launched in 1990 and still remains in operation. It was named after the astronomer Edwin Hubble. It is one of NASA’s Great Observatories, along with some others including the Compton Gamma Ray Observatory, the Chandra X-Ray Observatory, and the Spitzer Space Telescope. Hubble’s four main instruments observe in the near ultraviolet, visible, and near infrared spectra. It isn’t the first space telescope, but it is one of the largest and most versatile. Space telescopes were proposed as early as the 1923s. Hubble was funded in 1970s, with a proposed launch in the 1980s, but with problems like the Challenger Disaster, technical delays, and budget problems, the project had to be postponed. When it finally launched in 1990, the main mirror was found to have been ground incorrectly, putting the telescope’s capabilities at risk. The optics were corrected by a servicing mission in 1993. The Hubble Space Telescope is the only telescope in space that was designed to be service by astronauts. Some could say it is one of Space Travels greatest achievements.

Famous Astronauts and The Difference They Made in Space Travel

Space Travel would be nothing if it weren’t for its most important part: the astronauts themselves. In this article, I will be telling you about some of the famous astronauts and the difference they made in space travel.

Neil Armstrong and Buzz Aldrin

These are probably two of the most famous astronauts of all time. They were the first people to ever step on the moon.

Yuri Gagarin

He is probably one of the most important astronauts. He is the first person to ever go to space. He orbited the earth once on his spacecraft.

Alan Shepard

He was the first American to be in space. In 1971, he walked on the moon.

John Glenn

He is the first American to ever orbit the earth, circling it three times. After retiring from NASA, he served as a democratic senator from Ohio.

Valentina Tereshkova

She is the first woman to have flown in space. She piloted Vostok 6 on June 6, 1963.

Alexey Leonov

He became the first person to ever walk in outer space and to exit the capsule.

Svetlana Savitskaya

She became the second woman in space. On her mission in 1984, she became the first woman to perform a spacewalk and the first woman to fly in space twice.

Sally Ride

She was the third woman in space, and the first American woman in space.

Chris Hadfield

He was the first Canadian to walk in space.

Guion Bluford

He was the first African American in space.

Mae C. Jemison

She was the first African American woman to travel in space.

Rakesh Sharma

He was the first Indian in space.

Astronauts on the Columbia Space Shuttle

On February 1, 2003, the Space Shuttle Columbia disintegrated upon reentering Earth’s atmosphere, killing all seven crew members. They were astronauts Rick D. Husband, William C. McCool, Michael P. Anderson, Ilan Ramon, Kalpana Chawla, David M. Brown, and Laurel Blair Salton Clark.

Kalpana Chawla

She was the first Indian woman in space, but died during the Columbia Space Shuttle disaster.

Astronauts on the Space Shuttle Challenger

These astronauts all died on January 28, 1986, when the Space Shuttle Challenger broke apart 73 seconds into its flight. The seven people were Francis R. Scobee, Michael J. Smith, Ronald McNair, Ellison Onizuka, Judith Resnik, Gregory Jarvis, and Christa McAuliffe.

This is obviously not every single astronaut that ever traveled in space, but I think I covered a lot of the famous ones. Thank you for reading this article.

What is the Best Resource in Space?

         Hold your phone, tablet, computer —  any electronic. Name any element that’s in your device that can be found here on Earth.  These elements can also be found in our very own solar system.

        Asteroids and meteors yield many precious metals such as iron, palladium, and gold, which can be utilized in conducting, metalwork, and electronics;  other elements such as oxygen, water, and silicone have also been found.  These elements could potentially make $97,725,000,000.

However, space mining isn’t that easy:  astroids can collide with each other suddenly, making it difficult to implement permanent mining areas.  Also, the cost of establishing mining areas is extremely costly — sending 2 kilograms of asteroid/space samples costs $1 billion.  Mining rights are also an issue — the government has to pass austere laws on space mining, which determines whether space mining is legal or illegal.

Nonetheless, people are still attempting to mine in space.  Precious metals could potentially pay for any pecuniary space issues and bolster our economy;  but what resource is considered the best?

Personally, I would opine that water is the best —  when broken down (into hydrogen and oxygen), it can fuel rockets, making it possible to set up rocket “gas stations” in space.  Its versatility also allows it to quench astronauts and grow necessary crops.  While other metals contribute to the economy, without water astronauts can’t fuel machinery or nourish themselves.

However, determining what resource is best is difficult.  Nobody started mining yet, and there’s still a lot of work to do before we can establish a space mine;  even then, it might be hard to maintain a permanent place.  It just might be another century before we humans can finally establish one.

 

 

         

Space: It Isn’t All Fun and Dodging Asteroids

Every little kid’s dream is to become an astronaut when they grow up. At such a young age, soaring up to the stars seems like the greatest thing in the whole world. However, there are a lot of dangers when it comes to space travel, and a good amount of them are from the astronauts themselves. Imagine staying cooped up in a small rocket for months on end, or getting stuck in the ISS for years, with the same few people for company. Over time, it’d probably drive you mad.

Depression. It’s a serious issue on earth; despite the fact that being in space is pretty cool, it’s a problem there too. Whether on earth or in space, depression is pretty much the same. It’s the triggers that vary. In space, it could be a lot of different things. Boredom, cabin fever, isolation, or conflict with other crew members. Making a call to a therapist or a specialist who could help astronauts handle those kind of issues could be an issues, as astronauts in deep space would be much too far removed.

However, James Cartreine and colleagues, supported by The National Space Biomedical Research Institute, are developing self-directed modules to help astronauts treat themselves. Cartreine’s work focuses on treating negative behavioral issues and the risk of astronauts performing badly due to conflicts with their fellow crew members.

These modules are interactive programs, similar to a video game/3D graphic interface. The ‘patient’ goes through different interactive simulations based on the issue he/she is facing, and the module provides assistance and advice on how to deal with it. Unfortunately, this new technology doesn’t really solve the problem of boredom or irritation in space, but researchers are always looking to help astronauts cope with the issues of space travel, and it’s a good start!

Supplies Needed In Space

Space Travel has been going on for a very long time. However, the supplies that astronauts use have not changed, though people have tried to improve them. Here are the supplies astronauts would need to travel in space.

Space Ship and Fuel

This is probably the most obvious and important thing you need in space. Without a space ship and fuel to power it, you can’t even get to space and escape the escape velocity of Earth.

 Food and Water

Food and water are as important in space as they are in Earth. But the difference is they have to eat freeze-dried food and add water to it. Water is created when the hydrogen is turned into electricity.

Space Suit

Astronauts need space suits if they are going to go out of the space ship. Without protection, astronauts would quickly die in space, because of dangerous radiation. It is also very cold in space. There is no air pressure and no air to breath in space.

Hygiene and Health Supplies

Astronauts would need to be hygienic just as much in space than in Earth. But since water doesn’t flow in microgravity, astronauts need to use different methods.

 Things you need to Sleep

When Astronauts sleep, they use sleeping bags that are strapped to the walls. Also, since the sun never sets in space, they usually wear blindfolds while they sleep.

 Contact back to Earth

Astronauts need to be able to contact Earth so they know what they are doing.

Entertainment

This is not an absolute need, but you can imagine that you would get pretty bored just sitting around in space with nothing to do.

Thank you for reading this article, and I hope you learned something.

Space Radiation

Space Radiation is made made up of 3 types of radiation; particles trapped in the Earth’s magnetic field, particles shot into space during solar flares, and galactic cosmic rays. It takes the form of subatomic particles from the sun. Radiation can be very dangerous for astronauts. They risk getting radiation caused cancer and more diseases. Pretty much every cell in the human body is susceptible to radiation damage. Space suits can give some protection against the UV rays, but they give a limited amount of protection from the particle radiation and gamma x-ray. If the particles have enough energy they could quite simply pass through the space suit. Radiation is very dangerous to everybody but it’s also pretty interesting.

Effects of Microgravity on the Human Body

One of the most serious issues of astronauts is zero gravity. This affects their body as it is used to dealing with the gravitational pull of earth. For example, the loss of pressure on bones can destabilize them causing bone loss.

As the Scientific American expertly puts it, “In microgravity, bone loss occurs at a rate of 1 to 1.5 percent a month, leading to an acceleration of age-related changes similar to osteoporosis.Decreases in bone density and strength are more pronounced in some skeletal regions, such as the pelvis, although much of the loss is reversible upon return to Earth.” The effects of space also increases the risk of bone fractures and the body’s ability to heal them.

Muscle loss is another one of the key factors of microgravity. For reasons unknown, microgravity changes the physiology of the heart. When these astronauts return to Earth, some of them may experience an ‘impaired orthostatic response,’ which is when their blood pressure get very low by moving from a lying down position to a sitting position.

These are just two of the many impacts of microgravity. I hope you finished reading this article knowing something new.