Introduction The idea of interstellar space travel has been discussed for many years between many scientists and engineers since 1950s (Adelman, 180). It has not only been discussed but also demonstrated in science fiction literature. By getting the knowledge of interstellar travel, people wonder when will we be able to travel between stars and if it is even possible to reach another star other than the sun. However, others wonder “what is the point of spending so much money on something that it
Have you ever wondered what interstellar travel is? How it is related to space travel now a days? Science is always involved in the ways things work. Especially when that object has something to do with space. There are many problems with spacecraft that would need to be fixed for them to become interstellar spacecrafts. So the requirements have to overcome those problems and go beyond the minimum. For example, where the spacecraft wants to go could be a possible problem. “The problem is getting
itself and space, and a pine forest with a clear la... ... middle of paper ... ...llar travel? Maybe the purpose of this painting is to give people imagination and motivate them to make whatever comes to their head a reality, and that the woman in the painting could be them in the future, but on another planet. The message of the painting could be telling humans to hurry up and invent interstellar travel already, so that they can leave the earth. If so, why would humans want to leave the earth
will develop in size and become a red giant. There is a feasible chance that it will eradicate the Earth itself. Therefore we require our current government to put currency and resources towards the issue of identifying technology adequate for interstellar travel. #1 The habitat that we are based on today, Earth, is imperative for the survival of humanity. It administers us with O2 that lets us breathe and absorb oxygen into our system to fuel us, an area to hold the capacity of the human race and
other means of studying cosmic rays that reveal new information.. An analysis of cosmic rays using a cloud chamber reveals a connection between frequency and altitude. Cosmic rays are high energy charged particles, originating in outer space, that travel at nearly the speed of light and strike the Earth from all directions. The term "cosmic rays" usually refers to galactic cosmic rays, which originate in sources outside the solar system, distributed throughout our Milky Way galaxy. However, this term
Stars form by starting in a nebula, which is a cloud of interstellar hydrogen gas and dust and are born in cold, and dense clouds of gas which the pressure cannot resist gravitational contraction. The gas and dust compress due to gravitational forces, forming a slowly rotating globule. The globule is cooled by emitting radio waves and infrared radiation. It is compressed by gravitational forces and by shock waves of pressure from supernova or the hot gas released from nearby stars. These forces cause
Question 1: List and briefly describe each of the six steps involved in the formation of the solar system. Response: Step 1: Gravitational Collapse An interstellar cloud of gas that is known as the solar nebula collapsed under its own gravity. The collapse may have been caused by a cataclysmic event. After that, gravity allowed the collapse to continue. This lead to the heating, spinning and flattening of the solar nebula. The Sun formed in the center of the collapsing solar nebula where the
Nebulae are a very colorful space feature. If you ever get a chance to see one, you would agree. I have been researching nebulae for the past few days, in particular the horsehead nebula, and I have learned quite a bit about these vibrant space displays. Nebulae are a large cloud of hydrogen, helium, various other gasses, dust particles, and plasma often containing new stars or the remnants of old stars. There are several types of nebulae. They are emission, reflection, dark and planetary nebulae
as well as several other interesting phenomena such as Bok globules, and the hourglass nebula. It is these regions of the nebula that make it a continuous area of interest and study for astronomers. Messier 8, nicknamed the Lagoon Nebula is an interstellar cloud located in Sagittarius, discovered by John Flamsteed in 1680. It is one of the few nebulae that can be seen by the naked eye. It was given its nickname by Agnes
own weight or would this be too much of a challenge while flying? I would probably worry about enough sufficient oxygen, since flying requires air to work, just as swimming requires water. The higher I go the more lack of oxygen, the slower I will travel in proportion to the thinning air, therefore no flying in space. In addition, it is very important to remember I am not invincible. Therefore, if I try to fly through a brick wall, I would definitely injure myself; this also applies if I collide with
Purpose: to become familiar with the image analysis program and to develop an understanding to the size and age of planetary nebulae Procedure The first part of the experiment involved using a picture of a church and back round to understand different pixels, ADU, zoom, and how to get the (x,y) coordinates. We then took this brief understanding of pictures and applied it to the stars. We loaded a picture of nebulae m42. After this we needed to calculate the average number of stars or solar masses
type appears in a vast array of shapes, sizes and form in different ways. The unique appearance of each nebula depends on temperature, density and how the dust is spatially arranged with respect to the viewer. Although all nebulae are forms of interstellar matter some of them formed from the death of stars while others formed from atoms and simply reflect the light from the nearby stars. The first nebula, to be highlighted, is The Great Carina Nebula, or NGC 3372, which is found approximately 7,500
A star is a self-radiant divine body consisting of a mass of gas held together by its own gravity. The birth of a star begins inside a molecular cloud. Stars form inside these somewhat dense concentrations of interstellar gas and dust. The process of star formation has long been a mystery because of viewing limitations. Large amounts of small solid particles blocked our view of the stars which are beyond the molecular cloud. Infrared technology now provides some insight on how a star is formed
dust and gas floating in space. The word nebula is Latin and means cloud. Originally the word nebula referred to any extended astronomical object, not including comets, planets, or satellites. But over time the word nebula became reduced to mean interstellar cloud of dust and gas. Calling it that does not do a nebula justice. Most nebulae are commonly made up of hydrogen and helium gasses, dust, and plasma. Nebulae are the building blocks of our universe; they contain all the things stars need to
supernovae are stars that run out of fuel and collapses under their own gravity. The layers can blow out at a velocity of 15,000 km/s. The energy from the explosion causes elements heavier than iron to form. Remnants of supernovae will cool and become interstellar clouds, therefore, allowing new stars to form. A supernova can radiate more energy than the sun will in its entire lifetime. The supernova can either become a neutron star or a black
The reasons for space travel are countless. Population growth is a major problem that could be helped if space travel led to discovering potentially viable living environments other than Earth. Currently, the population is doubling every 35 years and may speed up with increased technology (1). There is a vicious cycle of poverty, lack of education, and corruption that is already occurring in third world countries due to the population. A second problem that could be helped is a direct result of the
The basic idea of star formation is gravitational collapse – the contraction of a region of gas under the influence of gravity. This is a simple process that would be expected to occur in any region of material dense enough for collisions between atoms to radiate away energy. However, the gas must be dense enough for collisions to occur and the temperature must be low enough for the atomic velocities not to be able to escape the system's gravity, so star formation only occurs in a few areas. The
details. All things have a life cycle of creation, life, and dying, including the stars. A star's birth starts with a interstellar cloud. A interstellar cloud, or a interstellar medium, is a cloud made of hydrogen gas and dust. Also, the interstellar cloud is a filled space between the other stars, that has a rattling low density (Interstellar Medium). A star forms from a interstellar cloud by combining with other atoms. With the temperature being, nothing to just above zero degrees, the atoms of the
A Galaxy is an enormous collection of billions of stars, gas and dust held together by the force of gravity. Our sun and all the other visible stars in the night sky belong to the Milky Way galaxy. The entire Milky Way galaxy itself contains over 200 billion stars with an average separation of 5 light years between each of them. Similarly, there are billions of other galaxies are existing in our unimaginably vast Universe. Galaxies come in different shapes and sizes. They were first classified according
the life cycle of a star, astronomers observe many of the billions of stars around us and see them at different stages of life, therefore piecing together a star's evolution. A star is born from clouds of gas and dust called nebulae found in interstellar space. Nebulae are composed mainly of hydrogen and helium, but also contain traces of heavier elements. It is uncertain as to how the very first stars were created. What is known is that after the first stars were formed, they began to generate