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The Milky Way Galaxy: A Cosmos Journey through Galaxies, Dark Matter, and Gravitational Lensing

Introduction: Exploring Milky Way Galaxy and Beyond #

A galaxy is like a huge family of stars, planets, and cosmic objects all held together by gravity. Our home in space is called the Milky Way Galaxy, where the Sun and our solar system are just tiny parts. It’s like a big, sparkling city in the universe, and there are billions of other galaxies out there, too. Exploring galaxies helps us learn about the incredible vastness of space.

Milky Way Galaxy: Evolution, Diversity, and Cosmic Scale #

A galaxy is a massive, gravitationally bound system of stars, stellar remnants, interstellar gas, dust, and dark matter. These components are held together by gravity.

  • Evolution and Formation of Milky Way Galaxy: Galaxies evolve and change over time through processes such as mergers, collisions, and star formation. 
  • Hubble’s Law: Edwin Hubble’s observations in the early 20th century led to the discovery of the expansion of the universe
    • He found that galaxies are moving away from us, and their recessional velocities are directly proportional to their distances from us. 
    • This relationship is known as Hubble’s Law.
  • Populations: Galaxies contain different populations of stars, including young, hot, and massive stars, as well as older, cooler stars. 
    • This diversity is often reflected in the galaxy’s colour and characteristics.
  • Size and Scale: Galaxies vary in size from a few thousand to hundreds of thousands of light-years across. 
    • The Milky Way Galaxy is approximately 100,000 light-years in diameter.
  • Clusters and Groups: Galaxies are not isolated, they can be found in groups or clusters, which are collections of galaxies bound by gravity. 
    • The Local Group is a small cluster that includes the Milky Way Galaxy, Andromeda, and several other galaxies.
Diversity of Galaxies: Elliptical, Irregular, and Spiral Structures
Elliptical Galaxies
  • These are roughly spherical or ellipsoidal in shape and lack distinct spiral arms. 
  • They often contain older stars
  • Elliptical galaxies come in a range of sizes. 
Milky Way Galaxy
Irregular Galaxies
  • Irregular galaxies lack a defined shape and do not fit into the categories of spiral or elliptical galaxies. 
  • They often have irregular structures and can contain both young and old stars.
Spiral Galaxies
  • These have a spiral-like structure with arms that wind out from a central nucleus. 
  • The Milky Way Galaxy is an example of a spiral galaxy. 
  • Notable Galaxies: Some famous galaxies include the Andromeda Galaxy (M31), the Triangulum Galaxy (M33), the Whirlpool Galaxy (M51), and the Sombrero Galaxy (M104), among others.
  • Observing Galaxies: Astronomers use telescopes, both ground-based and space-based (e.g., the Hubble Space Telescope), to study galaxies in various wavelengths of light, including visible, infrared, and radio waves.
  • Galaxy Exploration: Human-made spacecraft, such as the Hubble Space Telescope, have provided invaluable data about galaxies beyond our own. 
    • Future missions, like the James Webb Space Telescope, will further our understanding of distant galaxies.
  • Exoplanets: Some galaxies may host planetary systems, including exoplanets, orbiting stars within them. 
  • Dark Matter: A significant portion of a galaxy’s mass is attributed to dark matter, an invisible substance that does not emit or interact with electromagnetic radiation but exerts gravitational influence. Dark matter helps hold galaxies together.
  • Supermassive Black Holes: Many galaxies, including the Milky Way Galaxy, harbor supermassive black holes at their centers. 
    • These black holes can have millions or even billions of times the mass of our sun.

The Milky Way Galaxy: A Cosmic Journey through Stars, Mysteries, and Collisions #

The Milky Way Galaxy is the galaxy where our solar system, including Earth, is located. It contains billions of stars, including our Sun, and their planets.

Milky Way Galaxy

  • Spiral Shape: The Milky Way Galaxy has a spiral shape, like a giant pinwheel with arms swirling out from the centre.
  • Massive Size: It’s enormous, stretching over 100,000 light-years from one end to the other.
  • Centre: At the centre of the Milky Way Galaxy lies a supermassive black hole called Sagittarius A*.
    • This black hole has a mass millions of times greater than that of the Sun.
  • Motion: Stars within the Milky Way Galaxy, including the Sun, orbit the galactic centre.
    • It takes our Sun about 230 million years to complete one full orbit around the galaxy – this is called a galactic year.
  • Star Clusters: The Milky Way Galaxy contains various types of star clusters, including open clusters (groups of relatively young stars) and globular clusters (dense, spherical collections of old stars).
  • Life in the Milky Way Galaxy: Earth is located in the habitable zone of the Milky Way Galaxy, where conditions are suitable for life as we know it.
    • It is possible that other planets within the galaxy could harbour life, but we have not yet found definitive evidence.

Milky Way Galaxy

  • Unanswered Questions: Despite our extensive knowledge, there are many mysteries about the Milky Way Galaxy, including the nature of dark matter, the history of its formation, and the existence of other potentially habitable planets.
  • Exploration: Scientists study the Milky Way Galaxy using telescopes and space probes.
    • Advanced telescopes like the Hubble Space Telescope help us observe distant stars and galaxies within our own galaxy.
  • Neighbourhood: The Milky Way Galaxy is part of a group of galaxies called the Local Group, which includes the Andromeda Galaxy, the Triangulum Galaxy, and about 54 other smaller galaxies.
  • Collision: In the distant future, the Milky Way Galaxy and the Andromeda Galaxy are expected to collide and merge, forming a new, larger galaxy.

Universe’s Hidden Forces: Dark Matter and Dark Energy #

Many scientists are pretty sure that everything we can see in the universe, like stars and galaxies, is only about 5% of all the stuff out there. They think the rest is made up of two things we can’t see: dark matter and dark energy.

  • The visible universe we see is the result of various interactions among the four Fundamental forces acting upon the particles, namely-
    • Strong nuclear force
    • Weak nuclear force
    • Electromagnetic force
    • Gravitation
  • About Dark Matter: Dark matter is a mysterious substance in the universe that doesn’t have an electric charge.
    • It doesn’t interact with light or other electromagnetic forces.
    • It behaves like regular matter in terms of having mass and responding to gravity.
  • Detecting Dark Matter: Detecting dark matter is tough because gravity, the force it interacts through, is very weak.
    • Its interactions are so feeble that it’s challenging to spot dark matter amidst the noise created by other known particles.
  • Dark Energy : It is a theoretical type of energy that works in the opposite way of gravity.
    • It has a negative and repulsive effect.

Milky Way Galaxy

  • Explaining Its Hypothesis: Scientists propose Dark Energy as an explanation for what we observe when we look at distant type Ia supernovae
    • These supernovae indicate that the universe is expanding at an accelerated rate.
  • Inference from Gravitational Interactions : Just like Dark Matter, we can’t see Dark Energy directly. 
    • Instead, we figure out its existence from how it affects the way things in the universe behave gravitationally. 
  • Major Contributor to the Universe: Dark Energy makes up a significant portion of the universe, about 72% of the total mass and energy in the cosmos.
Recent Research – Exploring Primordial Black Holes and Gravitational Lensing

  • Recent studies have faced challenges in detecting dark matter using underground or accelerator experiments. 
  • Even the world’s largest accelerator, the Large Hadron Collider (LHC), has not been successful in this regard.

Unfinished Theories:

  • Scientists have explored Stephen Hawking’s 1974 theory suggesting the existence of primordial black holes, which were formed shortly after the Big Bang. 
  • However, this theory remains incomplete.

Milky Way Galaxy

Gravitational Lensing Approach:

  • Researchers are now turning to the gravitational lensing effect to search for primordial black holes that may exist between Earth and the Andromeda galaxy.
  • Gravitational lensing, a phenomenon predicted by Einstein’s theory of general relativity, was first observed by Arthur Eddington in 1919.

What is Gravitational Lensing?

  • Gravitational lensing happens when a massive object, like a big galaxy or a group of galaxies, creates a strong gravitational pull
  • This pull bends and magnifies the light coming from objects behind it, all in the same direction.

Types of Gravitational Lensing:

  • When really massive objects, such as galaxies, do this, it can create multiple distorted images of the same object; this is known as “strong lensing.”
  • Lighter objects, like stars or black holes, also bend light, but not as dramatically. This is called “microlensing.”

Conclusion: #

  • In its vastness and complexity, the Milky Way Galaxy stands as a testament to the wonders of the cosmos, offering a glimpse into the mysteries of dark matter, the enigmatic nature of supermassive black holes, and the potential for life beyond our own planet. As we continue to explore its depths, the impending collision with the Andromeda Galaxy serves as a reminder of the ever-evolving nature of the universe.
UPSC Civil Services Examination Previous Year Question (PYQ)

Q. In the context of modern scientific research, consider the following statements about ‘IceCube’, a particle detector located at South Pole, which was recently in the news: (2015)

  1. It is the world’s largest neutrino detector, encompassing a cubic kilometer of ice.
  2. It is a powerful telescope to search for dark matter.
  3. It is buried deep in the ice

Which of the statements given above is/are correct?

(a) 1 only
(b) 2 and 3 only
(c) 1 and 3 only
(d) 1, 2 and 3

Ans: (d)

 

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 Final Result – CIVIL SERVICES EXAMINATION, 2023.   Udaan-Prelims Wallah ( Static ) booklets 2024 released both in english and hindi : Download from Here!     Download UPSC Mains 2023 Question Papers PDF  Free Initiative links -1) Download Prahaar 3.0 for Mains Current Affairs PDF both in English and Hindi 2) Daily Main Answer Writing  , 3) Daily Current Affairs , Editorial Analysis and quiz ,  4) PDF Downloads  UPSC Prelims 2023 Trend Analysis cut-off and answer key

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 Final Result – CIVIL SERVICES EXAMINATION, 2023.   Udaan-Prelims Wallah ( Static ) booklets 2024 released both in english and hindi : Download from Here!     Download UPSC Mains 2023 Question Papers PDF  Free Initiative links -1) Download Prahaar 3.0 for Mains Current Affairs PDF both in English and Hindi 2) Daily Main Answer Writing  , 3) Daily Current Affairs , Editorial Analysis and quiz ,  4) PDF Downloads  UPSC Prelims 2023 Trend Analysis cut-off and answer key

Quick Revise Now !
AVAILABLE FOR DOWNLOAD SOON
UDAAN PRELIMS WALLAH
Comprehensive coverage with a concise format
Integration of PYQ within the booklet
Designed as per recent trends of Prelims questions
हिंदी में भी उपलब्ध
Quick Revise Now !
UDAAN PRELIMS WALLAH
Comprehensive coverage with a concise format
Integration of PYQ within the booklet
Designed as per recent trends of Prelims questions
हिंदी में भी उपलब्ध

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