Chapter 12 Beyond Earth Revision Notes Class 6 Science

Chapter 12 Beyond Earth Class 6 Science is provided by studyrankers. We have included all the important points from the chapter in this note. This chapter, Beyond Earth is curated in such a way that it will help the students is understanding the concepts easily. NCERT Solutions for Chapter 12 Beyond Earth is also give on this website which provide students with in depth knowledge of the chapter.

Beyond Earth Chapter Notes Class 6

  • Introduction
  • Stars and Constellations
  • Night Sky Watching
  • Our Solar System
  • Asteroids
  • The Milky Way Galaxy
  • The Universe
  • Key Concepts

Introduction

Stars have always been a source of wonder, especially in places where the sky is clear, like in Nubra, Ladakh. In such places, the night sky is filled with thousands of bright stars because there's no pollution blocking the view. People who live there, like a young girl named Yangdol and her twin brother Dorjay, love looking at the stars every night. They enjoy finding patterns in the stars, like connecting dots to make pictures, and they are curious about how far away and big the stars are?

In the past, stars were really important because they helped travelers find their way, especially in places like Nubra. Stars were like a natural GPS for people long ago. The clear night sky not only looks amazing but also sparks curiosity and a sense of wonder about the universe.

Can you see it?

When you look up at the night sky filled with stars, you can use your imagination to create patterns by connecting the stars, almost like drawing a picture.

Constellations Drawing

For example, you might see a group of stars that, when connected by lines, form the shape of an animal or an object.


Stars and Constellations

Stars and Constellations

Stars and their Patterns:

  • At night, we see many stars in the sky. Some are bright, while others are dim. Stars give off their own light.
  • Groups of stars sometimes form patterns that look like familiar shapes. Long ago, our ancestors enjoyed watching these stars. They noticed these patterns and linked them to animals, objects, or characters from stories.
  • Different cultures had their own names for these star patterns, often based on their unique stories. These imaginary shapes helped people recognize stars more easily.

 Stars and Navigation:

  • Recognizing stars and their patterns was very useful for navigation in ancient times. Before modern technology and tools like the magnetic compass, people, especially sailors and travelers, used stars to find their way at sea or on land.
  • Even today, in emergencies, people still use star patterns as a backup way to navigate.


Constellations

These groups of stars that form patterns are called constellations. The stars in a constellation are often connected by imaginary lines to make the pattern easier to see. For example, one famous constellation is Orion, which looks like a hunter. 

  • Orion’s belt is made of three stars in a row. 
  • Some people imagine that Orion, the hunter, is followed by his dog (another constellation called Canis Major) and that they are fighting a bull (a constellation called Taurus).
Orion's belt, Canis Major and Taurus Constellation

International Astronomical Union (IAU)

  • Different cultures had theirown ways of naming and defining these constellations, so to keep everything organized, an international group called the International Astronomical Union (IAU) decided on official boundaries for 88 constellations
  • This way, the entire sky is divided into 88 regions, each named after a constellation.

In Indian astronomy, constellations are also important, and certain stars or groups of stars are given special names, like Ārdrā (which is a star in Orion) and Kittikā (a group of stars in Taurus). These names are still used in Indian culture today.

Pole Star, Big Dipper and Little Dipper


More about Constellations 

In the night sky, there are two famous star patterns called the Big Dipper and the Little Dipper

  • These patterns are part of larger constellations, with the Big Dipper being part of Ursa Major and the Little Dipper part of Ursa Minor. 
  • A special star called thePole Star, or Polaris, is part of the Little Dipper. 
  • This star is unique because it stays in the same spot in the sky, always pointing North. This makes it useful for finding the North direction, especially in the Northern Hemisphere.

In India, the Big Dipper is known as Saptaihi, and the Pole Star is called Dhruva tārā. These patterns and stars have different stories and meanings in various cultures. For example, some tribes in Central India see the four main stars of the Big Dipper as a “grandmother’s cot,” with the other three stars representing thieves trying to steal it. Fishermen along the Konkan coast imagine these stars as a boat, with the last three stars forming the neck of the boat. 


Night Sky Watching

How to see Stars and Constellations at night?

  • When the night is clear and without clouds, you can see many stars in the sky. However, if you live in a big city, the sky is often not clear, and you might only see a few stars. This is because of something called light pollution, as well as smoke and dust  in the air. 
  • Light pollution happens when there is too much artificial light at night. In places like villages, where there is less light pollution, you can see many more stars. Sometimes, tall buildings and trees around your house can also block your view of the night sky. The best places to see the night sky are open and dark areas with little light.
  • Not all stars and constellations can be seen from every place on Earth or at all times of the year. For instance, the Pole Star  cannot be seen from the southern part of Earth. To identify a star or a constellation, you need to know what it looks like and where to find it in the sky. 
  • You can use pictures of constellations to help you recognize their patterns. There are also sky mapping apps  that you can download on your phone, which can tell you when and where to see a star or constellation from your location.


Understanding Light Pollution

  • Light pollution  is increasing rapidly around the world, making it harder for us to enjoy and study the objects in the night sky.
  • To combat this, some dark sky reserves and parks  have been created. In these places, light pollution is controlled to keep the skies dark for research and stargazing.
  • There are also organizations  that work to teach people about ways to reduce light pollution.

Apps for identifying Stars, Constellations, and Planets

  • Sky Map is a useful app that helps you identify stars, constellations, and planets using your mobile phone.
  • Stellarium is another app that offers similar features. The computer version of Stellarium is available for free download and comes with many useful features.


Preparation for Night sky watching

  • Selection of Location: Identify a dark, open area suitable for night sky watching under adult supervision. The area should be away from artificial lights, tall buildings, and trees.
  • Choosing Date and Time: Select the date and time for the activity based on the specific stars or constellations intended for observation.
  • Optimal Conditions: A moonless night with no clouds is ideal, especially for observing dim stars like the Pole Star.
  • Tools and Resources: It is beneficial to have access to a mobile app with a sky map or printed images of the constellations planned for observation. Carrying a magnetic compass for direction and a notebook for recording or drawing observations can also be helpful.
  • Arrival and Adjustment: On the selected day and time, go to the identified location with an adult. Upon arrival, allow approximately 30 minutes for the eyes to adjust to the darkness, which will enhance the ability to see the night sky more clearly.


Our Solar System

Our Solar System

The Solar System is like a big family in space. At the center of this family is the Sun, which is like a huge ball of fire that gives us light and warmth.

The Sun

  • The Sun is a star, and it's the closest star to our planet Earth. It's a gigantic, extremely hot ball of gases. The Sun shines so brightly because it emits a massive amount of energy. 
  • The Sun is the main source of heat  and  light  for our planet, providing the energy necessary for life. Although the Sun is about 100 times wider than Earth, it appears smaller in the sky because it is very far away from us. 
  • Despite its size, the Sun looks bigger than other stars because it is much closer to us. Other stars are farther away, which is why they look like tiny points of light in the sky, even though some of them are much larger than the Sun. During the day, the Sun's brightness makes it difficult to see these other stars. 
  • Besides the Sun and Earth, there are many other objects in the sky that, along with Earth, form the Solar System. Most of these objects move around the Sun in a path called revolution

The Sun: Our life-giving star

  • The distance from the Earth to the Sun is about 150 million kilometers. To help understand this vast distance, scientists use a special unit called the 'astronomical unit' (au), which is roughly the same as the distance between the Earth and the Sun. 
  • The Sun is not just a giant ball of hot gas; it is also the brightest object  in our sky and the main source of light and heat for our planet. Because of this, ancient people in many cultures, including India, worshipped the Sun as a  god. In India, the Sun is called  Sürya
  • The Sun's heat is very important for keeping the Earth at a comfortable temperature, which is necessary for life. Sunlight is also crucial for plants to grow. Plants are the foundation of the food chain, providing food and oxygen  for animals and humans. 
  • Additionally, the Sun plays a key role in creating climate,  seasons,  weather, the  water cycle, and  winds. All of these factors are vital for sustaining life on Earth. 

The Nearest Star: Proxima Centauri

Proxima Centauri is the star closest to us after the Sun. It is located about 269,000 times farther away from us than the distance between the Earth and the Sun. This distance is roughly 269,000 astronomical units (au), where 1 au is the average distance from the Earth to the Sun.


Planets

The Sun and the Planets and the Asteroid belt
  • A planet is a large, round object that orbits around the Sun. Our Earth is one of these planets. It takes about a year for Earth to go all the way around the Sun. There are other planets that do the same thing.
  • There are eight planets in our Solar System, listed in order of their distance from the Sun: Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, and Neptune.
  • The four planets closest to the Sun—Mercury, Venus, Earth, and Mars—are smaller and have solid surfaces covered with rocks.
    • Venus is often seen shining brightly in the morning and evening, which is why people sometimes call it the Morning Star or the Evening Star, even though it is not a star.
    • Mars is known as the Red Planet because its soil is reddish in color.
  • A large part of Earth's surface is covered with water, which makes it look blue from space. Because of this, Earth is also called the Blue Planet. 
  • The four planets farthest from the Sun—Jupiter, Saturn, Uranus, and Neptune—are much larger than Earth and are mostly made of gas. These giant gas planets have big, flat rings around them made of dust and rock. 
  • Planets get most of their energy from the Sun. Generally, the farther a planet is from the Sun, the colder it is. However, a planet's atmosphere can trap heat and make it warmer. For example, Venus is hotter than Mercury even though it is farther from the Sun.
  • Among the planets, Venus is the easiest to see because it is very bright. After the Sun and the Moon, Venus is the third brightest object in the sky. Mercury, Mars, Jupiter, and Saturn can also be seen without a telescope, but they look like small, shining dots, similar to stars.

More about Planets

  • As the Earth revolves around the Sun, it also spins, or rotates, on its axis. It takes about 24 hours for the Earth to complete one full rotation, which is what we call a day. Similarly, other planets also rotate on their axes while they orbit around the Sun.
  • In ancient India, different names were given to the planets that can be seen without a telescope. For example, Mercury was called Budha, Venus was called Śhukra, Earth was called Pṛithvī, Mars was called Mangala, Jupiter was called Bṛihaspati or Guru, and Saturn was called Śhani. These names reflect the long history of observing and naming the planets.
  • Pluto is an object that lies beyond Neptune and also revolves around the Sun. It is smaller than Earth's Moon. When Pluto was first discovered, it was considered a planet in our Solar System. 
  • However, as more small objects similar to Pluto were found, the International Astronomical Union (IAU) redefined what qualifies as a planet in 2006. According to this new definition, Pluto and other similar objects are now classified as dwarf planets.

Night Sky watching activities for students

  • Many higher education institutions invite school students to watch the night sky  and learn about stars and planets.
  • There are also  amateur astronomy clubs  across the country that regularly organize sky watching events for anyone interested. 
  • Museums and planetariums join in too,  offering similar sky watching events  to help people explore and enjoy the wonders of the night sky. 


Natural Satellites

  • Natural satellites are objects that orbit around planets. 
  • They are smaller in size than the planets they orbit. 
  • Moons are examples of natural satellites. 
  • Earth has one Moon, while Mars has two moons. 
  • The outer planets, like Jupiter, Saturn, Uranus, and Neptune, have many moons.


The Moon

The Moon
  • The Moon, which is Earth's natural satellite, takes about 27 days to orbit around our planet. It is the closest celestial neighbor to Earth. Unlike Earth, the Moon has very little atmosphere. In terms of size, the Moon is about one-quarter the diameter of Earth.
  • The Moon's surface is marked by many round, bowl-shaped depressions known as craters. These craters are mainly caused by the impact of asteroids or rocks from space striking the Moon's surface. Because the Moon lacks an atmosphere, water, and life, these craters remain visible for a very long time.
  • Even though the Moon is far away, humans have sent spacecraft to explore and learn more about it. India has launched three Chandrayaan missions to study the Moon, and there are plans for more missions in the future.


Understanding Satellites

  • A satellite is something that moves around a larger object in space. For example, the Earth is a satellite of the Sun because it orbits around the Sun. 
  • The Moon is a satellite of the Earth. It is about 3,84,000 kilometers away from our planet.

India has made significant strides in exploring the Moon through its Chandrayaan missions. The first mission, Chandrayaan-1, was launched in 2008, followed by Chandrayaan-2 in 2019. 

  • The third mission, Chandrayaan-3, was launched in July 2023, and its Vikram lander, carrying the Pragyan rover, successfully landed on the Moon's surface on August 23, 2023. This achievement made India the first country in the world to land near the Moon’s south pole, a region that has been little explored.
  • To honor this success, the Government of India has declared August 23 as 'National Space Day.' Looking ahead, a fourth mission, Chandrayaan-4, is being planned, with the goal of bringing back soil and rock samples from the Moon.


Asteroids

Asteroids
  • Asteroids are small, rocky objects in the Solar System that have an irregular shape, unlike the nearly spherical Sun and planets. 
  • Many asteroids orbit the Sun in a region between the orbits of Mars and Jupiter, known as theasteroid belt. Occasionally, some asteroids come very close to Earth as they travel along their paths around the Sun.

Asteroids: Their Sizes Explained 

  • Asteroids can range in size from as small as 10 meters to as large as 500 kilometers. 
  • To help you understand this better: 
    • 10 meters is roughly the length of a school bus. 
    • 500 kilometers is about the distance from New York City to Chicago!

Comets

Comets

What Are Comets? 

  • Comets are like visitors from the far reaches ofour Solar System. They are made of dust, gas, rocks, and ice. When a comet gets close to the Sun, the heat causes the frozen materials to evaporate, creating a bright tail. This is why comets can look so spectacular! 
  • When comets are far away from the Sun, they appear dim and are hard to see without a telescope. Some comets have regular orbits that bring them close to the Sun periodically, while others may escape the Solar System entirely. Some comets can break apart, crash into the Sun, or collide with planets as they travel through space. 


What Makes up the Solar System? 

  • The Solar System is made up of the Sun, eight planets, their moons, and many smaller objects like asteroids and comets. 
  • TheSun is the largest and heaviest object in the Solar System. It produces almost all the energy for the Solar System. Other objects in the Solar System, like the planets and their moons, shine because they reflect the sunlight that comes from the Sun. 

Halley's Comet: A Famous Space Visitor 

  • Halley's Comet is a well-known comet that visits our sky every 76 years
  • The last time Halley's Comet was seen was in 1986

In Sanskrit and various Indian languages, a comet is called "Dhūmaketu," and some tribes refer to it as "Pucchya-Taro" (star with a tail) or "Zendya-Taro" (star like a flag). In the past, comets were often feared and believed to bring bad luck, but today, thanks to scientific understanding, we know they are simply icy-rocky visitors making a trip close to the Sun.


The Milky Way Galaxy

The Milky Way Galaxy
  • On a moonless night, when viewed from a dark location far from city lights, an extended faint band of light can be seen stretching across the sky from north to south. 
  • This band of light is our home galaxy, known as the Milky Way Galaxy, or Ākāśha Gangā. A galaxy like the Milky Way contains millions to billions of stars, and our Solar System is just one small part of this vast galaxy. 


The Universe

  • Beyond the Milky Way Galaxy, there are countless other galaxies in outer space. Scientists study these galaxies to learn more about stars, galaxies, and the universe as a whole.
  • One of the big questions scientists are trying to answer is whether there is life anywhere else in the universe. 
  • So far, the search for life has focused mainly on exoplanets, which are planets that orbit stars other than our Sun, within our galaxy. 
  • Although scientists have not yet found any evidence of life on these exoplanets, the search continues.


Key Concepts

  • Asteroid: A small rocky object orbiting the Sun, mostly found between Mars and Jupiter.
  • Moon: A natural satellite that orbits a planet.
  • Solar System: The Sun and all the objects that orbit it, including planets, moons, asteroids, and comets.
  • Constellation: A group of stars forming a recognizable pattern.
  • Comet: An icy body that releases gas and dust, forming a glowing coma and tail when near the Sun.
  • Milky Way Galaxy: The galaxy that contains our Solar System.
  • Planet: A large object that orbits a star and does not produce its own light.
  • Stars: Massive, luminous spheres of plasma that emit light and heat.
  • Revolution: The movement of an object around another object, such as a planet around the Sun.
  • Satellite: An object that orbits a planet.
  • Sun: The star at the center of our Solar System, providing light and heat to the planets.
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