Astronomy’s place in our daily  life

 

Introduction

Throughout history, man has always believed in the sky to navigate the mighty seas and oceans to search for where they can plant their crops and which part of the land they can use to grow crops. They search for where they belong and how we see the world.

Astronomy has played a vital role in our lives. Old civilizations believed in gods, and they assumed that the movements of the sky objects had some meaning and something was going to happen. In present days we know it as Astrology. But there are still hints of history in modern Astronomy. For example, the names of the constellations such as Andromeda, the chained maiden of Greek mythology.

Now, as the world is making progress, our view of stars has changed. The basic elements like gas and dust found in the stars and planets are the same elements that make up our bodies and make a connection between us and the cosmos.

There are still many mysteries in Astronomy. We are finding unanswerable questions like; how old are we? Where do we come from? And what will be the end of this universe?   A popping question always remains about how mysterious this universe is. But over time, Astronomy Is making new records covering the furthest distances.

Even though we live in such a world facing many social and economic problems like poverty, hunger, global warming, inflation, and terrorism, we believe that astronomy has long-term effects that are equally essential for human beings.

From my point of view, knowledge of Astronomy to our new generation is also of great importance. It is an admitted fact that the students who got the knowledge of Astronomy at primary and secondary level have a good career in science and technology and making many scientific discoveries.

One of the few scientific subjects that engages directly with society is astronomy, which has a long history of doing so. Not only crossing international boundaries, but also actively fostering collaborative efforts in different parts of the world. In the following article, we will discuss the concrete features of the contributions that astronomy has made to a variety of areas.

In the Field of Medicine

A radio astronomer Nobel laureate, Martin Ryle, developed a technique of aperture synthesis. Astronomers and medicine researchers use this technique because astronomers grapple to see confused and unclear objects, and medicine struggles with the same problems. This technology is used in (MRIs), known as magnetic resonance imaging, CAT scanners, and many other medical imaging tools.

By utilizing these techniques, astronomy has developed many programming languages, making the process easy. The medical field also uses these languages in medical applications.

Here we list some more direct applications of astronomical tools used in medicine.

  • To scream Alzheimer’s disease at a larger scale in the medical field, medical researchers seek help from software processing satellite pictures from space.
  • A low-energy X-RAY scanner is used in different types of outpatient surgery and sports injuries
  • To control heating in neonatology units and units for the nursing of newborn babies small thermal sensor is used, which was initially developed to control telescope instrument temperature.
  • In the field of medicine, to detect tumors, doctors are using the method which was developed by radio astronomers.

In the Field of the Energy Sector

Fossil fuels are indispensable energy sources that power the world’s industries, transportation, and residences. Their high energy density and simple availability have fuelled economic expansion and technological progress. Astronomical methods evaluate the possibility of renewable energy sources to discover new fossil fuels.

  • IDL is used by world-famous companies to conduct petroleum research and analyze core samples.
  • Using a graphite composite material initially designed for an orbiting telescope array, Lngenero has built solar radiation collectors to harvest this energy. Utilizing a graphite composite material intended initially for an orbiting telescope array, Lngenero has built solar radiation collectors to capture solar energy for use on Earth.Earthlings can harness the sun’s power.
  • In the energy sector, X-ray telescopes, which must be constructed differently than visible-light telescopes, are now used to monitor plasma fusion.

 

In the Field of Aerospace

After the development of space-based telescopes, gathering information for defense has transferred from ground-based to aerial-based techniques. Actually, defense satellites are telescopes that indicate toward Earth. Besides this same software and processing is used in processing satellites which as used in astronomical images.

There are some examples of astronomical fields used in deference fields.

  • In early warning systems, the same process is being used and studied, which is used to differentiate between rocket plums and cosmic objects.
  • In the field of aerospace engineering, calibrated telescopes are used.
  • Astronomical objects are also used in GPS, known as Global Positioning System.
  • Solar-blind photon counter is now used to detect ultraviolet photons.

In the Field of Industry

 In recent years, astronomy has played a vital role in the field of industry, leading to the development of cutting-edge technologies and sophisticated instruments. As a result, numerous innovative concepts and tools have emerged which can be effectively transferred and applied to various industries beyond astronomy. The technology transfer process from astronomy to industry involves adapting and implementing these specialized technologies to address real-world challenges. Here are some key highlights:

  1. Imaging and Sensing Technology: Astronomy relies heavily on advanced imaging and sensing technologies to capture distant celestial objects. Techniques like adaptive optics and high-resolution detectors have found applications in medical imaging, remote sensing, and security systems, improving accuracy and image quality.
  2. Big Data Management: Astronomy generates vast amounts of data from telescopes and observatories. Astronomers have developed sophisticated algorithms and data management tools to analyze and process this data. These techniques are now being adopted by various industries dealing with massive datasets, including finance, healthcare, and environmental monitoring.
  3. Precision Manufacturing: Building complex and precise astronomical instruments has pushed the boundaries of manufacturing technology. Techniques like precision machining, cryogenic engineering, and ultra-stable materials are now being leveraged in manufacturing industries to produce high-quality, reliable products.
  4. Communication Technologies: Astronomy requires seamless communication and collaboration across global networks of researchers. The advancements in data transmission, networking, and remote communication within the field have influenced the development of modern communication technologies used in industries ranging from telecommunication to logistics.

Here are some examples;

  • General Motors analyzes automobile collision data using the astronomical programming language Interactive Data Language (IDL).
  • A business has gained the first patents for systems to detect gravitational radiation, created when huge things accelerate, to estimate the gravitational stability of underground oil deposits.
  • AT&T analyzes computer systems and solid-state physics graphics using Image Reduction and Analysis Facility (IRAF) software from the National Optical Astronomy Observatory. Astronomer Larry Altschuler developed tomography, which uses a penetrating wave to image in sections by reconstructing the Solar Corona from projections. Schuler, M.D. 1979

 

Astronomy in Everyday Life

There are many astronomical instruments that we use in our daily routine life. The most used astronomical invention is the WALAN, known as the wireless local area network.

  • To survey baggage for drugs and bomb explosives, a gas chromatograph is used in airports.
  • In airports, X-ray luggage belts are based on X-ray observatory technology.
  • For measuring the light intensity, an instrument was invented. Now the police use hand –held Chemical Oxygen Demand photometers.

Conclusion

In conclusion, astronomy is not just a field of study reserved for astronomers; it impacts our daily lives in numerous tangible and intangible ways. From timekeeping and communication to technological innovations and cultural heritage, astronomy enriches our lives and expands our horizons beyond our own planet. It reminds us of our place in the universe and inspires curiosity, imagination, and a sense of interconnectedness with the cosmos.

 

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