The Sun has an impressive diameter of about 1.39 million kilometers (approximately 864,000 miles), making it significantly larger than any planet in our Solar System. Its distance from Earth is roughly 93 million miles (150 million kilometers), a distance known as an astronomical unit (AU). This vasRead more
The Sun has an impressive diameter of about 1.39 million kilometers (approximately 864,000 miles), making it significantly larger than any planet in our Solar System. Its distance from Earth is roughly 93 million miles (150 million kilometers), a distance known as an astronomical unit (AU). This vast distance allows the Sun to provide light and heat essential for life on Earth while keeping our planet in a stable orbit. The Sun’s size and distance play crucial roles in the dynamics of the Solar System.
For more CBSE Class 6 Science Curiosity Chapter 12 Beyond Earth Extra Questions & Answer:
The differences between innermost and outermost planets are significant. Innermost planets, known as terrestrial planets, include Mercury, Venus, Earth, and Mars. They are smaller, rocky, and have solid surfaces. They also have thinner atmospheres. In contrast, the outermost planets, or gas giants,Read more
The differences between innermost and outermost planets are significant. Innermost planets, known as terrestrial planets, include Mercury, Venus, Earth, and Mars. They are smaller, rocky, and have solid surfaces. They also have thinner atmospheres. In contrast, the outermost planets, or gas giants, include Jupiter, Saturn, Uranus, and Neptune. These planets are much larger, composed mainly of gases and liquids, and possess thick atmospheres. Gas giants also have extensive ring systems and numerous moons, distinguishing them from their terrestrial counterparts.
For more CBSE Class 6 Science Curiosity Chapter 12 Beyond Earth Extra Questions & Answer:
Venus is hotter than Mercury primarily because of its dense atmosphere, which is composed mainly of carbon dioxide and sulfuric acid clouds. This thick atmosphere creates a strong greenhouse effect, trapping heat and raising surface temperatures to around 467 degrees Celsius (872 degrees Fahrenheit)Read more
Venus is hotter than Mercury primarily because of its dense atmosphere, which is composed mainly of carbon dioxide and sulfuric acid clouds. This thick atmosphere creates a strong greenhouse effect, trapping heat and raising surface temperatures to around 467 degrees Celsius (872 degrees Fahrenheit). In contrast, Mercury, being closer to the Sun, lacks a significant atmosphere to retain heat, leading to extreme temperature fluctuations. As a result, Venus remains the hottest planet in our Solar System despite its greater distance from the Sun.
For more CBSE Class 6 Science Curiosity Chapter 12 Beyond Earth Extra Questions & Answer:
Decantation is preferred over filtration when dealing with mixtures where the solid particles have already settled at the bottom, such as in separating clear liquid from sediment or oil from water. It’s a simpler method where you carefully pour off the top liquid, leaving the settled solids behind.Read more
Decantation is preferred over filtration when dealing with mixtures where the solid particles have already settled at the bottom, such as in separating clear liquid from sediment or oil from water. It’s a simpler method where you carefully pour off the top liquid, leaving the settled solids behind. Unlike filtration, which can handle finer particles and requires a filter medium, decantation relies on gravity and the settling of larger particles for effective separation.
For more CBSE Class 6 Science Curiosity Chapter 9 Methods of Separation in Everyday Life Extra Questions & Answer:
Nasal hair acts as a natural filter, similar to the filtration process used in separation techniques. It traps dust, pollen, and other airborne particles from the air we breathe, preventing them from entering the lungs. Just as filtration uses a medium to separate particles from a fluid, nasal hairRead more
Nasal hair acts as a natural filter, similar to the filtration process used in separation techniques. It traps dust, pollen, and other airborne particles from the air we breathe, preventing them from entering the lungs. Just as filtration uses a medium to separate particles from a fluid, nasal hair captures larger particles from the air, helping to keep our respiratory system clean and reducing the risk of inhaling harmful substances.
For more CBSE Class 6 Science Curiosity Chapter 9 Methods of Separation in Everyday Life Extra Questions & Answer:
Masks, commonly made from non-woven fabrics like polypropylene, serve as a barrier to filter airborne particles. They are designed to trap droplets and particles, including viruses and bacteria, preventing them from being inhaled or spread. This filtration process helps reduce the transmission of reRead more
Masks, commonly made from non-woven fabrics like polypropylene, serve as a barrier to filter airborne particles. They are designed to trap droplets and particles, including viruses and bacteria, preventing them from being inhaled or spread. This filtration process helps reduce the transmission of respiratory infections, such as COVID-19. By wearing masks, individuals protect themselves and others by minimizing the risk of virus spread, particularly in crowded or enclosed spaces.
For more CBSE Class 6 Science Curiosity Chapter 9 Methods of Separation in Everyday Life Extra Questions & Answer:
To separate a mixture of potatoes, salt, and sawdust, first add water to dissolve the salt. Filter the mixture to separate the sawdust from the liquid. Next, evaporate the water from the salt solution to obtain salt crystals. Finally, manually remove the potatoes from the remaining mixture. This proRead more
To separate a mixture of potatoes, salt, and sawdust, first add water to dissolve the salt. Filter the mixture to separate the sawdust from the liquid. Next, evaporate the water from the salt solution to obtain salt crystals. Finally, manually remove the potatoes from the remaining mixture. This process ensures that each component—salt, sawdust, and potatoes—is effectively separated based on their physical and chemical properties.
For more CBSE Class 6 Science Curiosity Chapter 9 Methods of Separation in Everyday Life Extra Questions & Answer:
When preparing herbal kadha, start by boiling plant parts like tulsi leaves to extract their medicinal properties into the liquid. After boiling, use filtration to separate the solid plant material from the liquid extract. If needed, evaporation can be employed to concentrate the herbal solution furRead more
When preparing herbal kadha, start by boiling plant parts like tulsi leaves to extract their medicinal properties into the liquid. After boiling, use filtration to separate the solid plant material from the liquid extract. If needed, evaporation can be employed to concentrate the herbal solution further by removing excess water. These separation methods help ensure that the kadha is clear and contains the concentrated active ingredients from the herbs, making it effective for its intended use.
For more CBSE Class 6 Science Curiosity Chapter 9 Methods of Separation in Everyday Life Extra Questions & Answer:
A script for a play featuring Malli and Valli's Bharat ki Yatra. Malli: “Valli, our Bharat ki Yatra was so fascinating! Remember when we visited the water purification plant?” Valli: “Yes, Malli! We saw filtration in action there. The plant used filters to remove dirt and impurities from the water,Read more
A script for a play featuring Malli and Valli’s Bharat ki Yatra.
Malli: “Valli, our Bharat ki Yatra was so fascinating! Remember when we visited the water purification plant?”
Valli: “Yes, Malli! We saw filtration in action there. The plant used filters to remove dirt and impurities from the water, making it clean and safe to drink.”
Malli: “Absolutely! And then at the dairy farm, we observed how a centrifuge separates cream from milk. The machine spun the milk at high speeds, causing the cream to rise and separate from the milk.”
Valli: “That was incredible! And don’t forget our trip to the beach. We saw how evaporation works in nature. The sun evaporated seawater, leaving behind salt crystals on the surface.
Malli: “Yes, Valli! Each method of separation was a great learning experience. We saw filtration, centrifugation, and evaporation all in action.”
Valli: “Indeed, Malli! Our journey helped us understand how these methods are used in everyday life. It’s amazing how science helps us in so many ways!”
Malli: “It was truly an educational adventure! Let’s share these experiences with everyone and continue exploring!”
Valli: “Definitely! Our Bharat ki Yatra was both fun and informative.”
For more CBSE Class 6 Science Curiosity Chapter 9 Methods of Separation in Everyday Life Extra Questions & Answer:
Throughout the week, I noticed several separation methods in use. For instance, filtration was used in our water purifier to remove impurities, evaporation occurred when drying clothes to remove moisture, and decantation was observed when separating oil from water in the kitchen. Each method was empRead more
Throughout the week, I noticed several separation methods in use. For instance, filtration was used in our water purifier to remove impurities, evaporation occurred when drying clothes to remove moisture, and decantation was observed when separating oil from water in the kitchen. Each method was employed for its specific purpose: filtration for clearing liquids, evaporation for removing water, and decantation for separating immiscible liquids. Comparing with my group, we all observed similar methods, highlighting their importance in daily life.
For more CBSE Class 6 Science Curiosity Chapter 9 Methods of Separation in Everyday Life Extra Questions & Answer:
How big is the Sun from the Earth?
The Sun has an impressive diameter of about 1.39 million kilometers (approximately 864,000 miles), making it significantly larger than any planet in our Solar System. Its distance from Earth is roughly 93 million miles (150 million kilometers), a distance known as an astronomical unit (AU). This vasRead more
The Sun has an impressive diameter of about 1.39 million kilometers (approximately 864,000 miles), making it significantly larger than any planet in our Solar System. Its distance from Earth is roughly 93 million miles (150 million kilometers), a distance known as an astronomical unit (AU). This vast distance allows the Sun to provide light and heat essential for life on Earth while keeping our planet in a stable orbit. The Sun’s size and distance play crucial roles in the dynamics of the Solar System.
For more CBSE Class 6 Science Curiosity Chapter 12 Beyond Earth Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-12/
See lessWhat are the differences between innermost and outermost planets?
The differences between innermost and outermost planets are significant. Innermost planets, known as terrestrial planets, include Mercury, Venus, Earth, and Mars. They are smaller, rocky, and have solid surfaces. They also have thinner atmospheres. In contrast, the outermost planets, or gas giants,Read more
The differences between innermost and outermost planets are significant. Innermost planets, known as terrestrial planets, include Mercury, Venus, Earth, and Mars. They are smaller, rocky, and have solid surfaces. They also have thinner atmospheres. In contrast, the outermost planets, or gas giants, include Jupiter, Saturn, Uranus, and Neptune. These planets are much larger, composed mainly of gases and liquids, and possess thick atmospheres. Gas giants also have extensive ring systems and numerous moons, distinguishing them from their terrestrial counterparts.
For more CBSE Class 6 Science Curiosity Chapter 12 Beyond Earth Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-12/
See lessWhy Venus is hotter than Mercury although it is farther from the Sun?
Venus is hotter than Mercury primarily because of its dense atmosphere, which is composed mainly of carbon dioxide and sulfuric acid clouds. This thick atmosphere creates a strong greenhouse effect, trapping heat and raising surface temperatures to around 467 degrees Celsius (872 degrees Fahrenheit)Read more
Venus is hotter than Mercury primarily because of its dense atmosphere, which is composed mainly of carbon dioxide and sulfuric acid clouds. This thick atmosphere creates a strong greenhouse effect, trapping heat and raising surface temperatures to around 467 degrees Celsius (872 degrees Fahrenheit). In contrast, Mercury, being closer to the Sun, lacks a significant atmosphere to retain heat, leading to extreme temperature fluctuations. As a result, Venus remains the hottest planet in our Solar System despite its greater distance from the Sun.
For more CBSE Class 6 Science Curiosity Chapter 12 Beyond Earth Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-12/
See lessIn what situations would you use decantation instead of filtration to separate solids from liquids?
Decantation is preferred over filtration when dealing with mixtures where the solid particles have already settled at the bottom, such as in separating clear liquid from sediment or oil from water. It’s a simpler method where you carefully pour off the top liquid, leaving the settled solids behind.Read more
Decantation is preferred over filtration when dealing with mixtures where the solid particles have already settled at the bottom, such as in separating clear liquid from sediment or oil from water. It’s a simpler method where you carefully pour off the top liquid, leaving the settled solids behind. Unlike filtration, which can handle finer particles and requires a filter medium, decantation relies on gravity and the settling of larger particles for effective separation.
For more CBSE Class 6 Science Curiosity Chapter 9 Methods of Separation in Everyday Life Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-9/
See lessCan you relate the presence of nasal hair to any separation process?
Nasal hair acts as a natural filter, similar to the filtration process used in separation techniques. It traps dust, pollen, and other airborne particles from the air we breathe, preventing them from entering the lungs. Just as filtration uses a medium to separate particles from a fluid, nasal hairRead more
Nasal hair acts as a natural filter, similar to the filtration process used in separation techniques. It traps dust, pollen, and other airborne particles from the air we breathe, preventing them from entering the lungs. Just as filtration uses a medium to separate particles from a fluid, nasal hair captures larger particles from the air, helping to keep our respiratory system clean and reducing the risk of inhaling harmful substances.
For more CBSE Class 6 Science Curiosity Chapter 9 Methods of Separation in Everyday Life Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-9/
See lessDuring the COVID-19 pandemic, all of us wore masks. Generally, what material are they made of? What is the role of these masks?
Masks, commonly made from non-woven fabrics like polypropylene, serve as a barrier to filter airborne particles. They are designed to trap droplets and particles, including viruses and bacteria, preventing them from being inhaled or spread. This filtration process helps reduce the transmission of reRead more
Masks, commonly made from non-woven fabrics like polypropylene, serve as a barrier to filter airborne particles. They are designed to trap droplets and particles, including viruses and bacteria, preventing them from being inhaled or spread. This filtration process helps reduce the transmission of respiratory infections, such as COVID-19. By wearing masks, individuals protect themselves and others by minimizing the risk of virus spread, particularly in crowded or enclosed spaces.
For more CBSE Class 6 Science Curiosity Chapter 9 Methods of Separation in Everyday Life Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-9/
See lessA mixture containing potatoes, salt and sawdust has been given to you. Outline a stepwise procedure for separating each component from this mixture.
To separate a mixture of potatoes, salt, and sawdust, first add water to dissolve the salt. Filter the mixture to separate the sawdust from the liquid. Next, evaporate the water from the salt solution to obtain salt crystals. Finally, manually remove the potatoes from the remaining mixture. This proRead more
To separate a mixture of potatoes, salt, and sawdust, first add water to dissolve the salt. Filter the mixture to separate the sawdust from the liquid. Next, evaporate the water from the salt solution to obtain salt crystals. Finally, manually remove the potatoes from the remaining mixture. This process ensures that each component—salt, sawdust, and potatoes—is effectively separated based on their physical and chemical properties.
For more CBSE Class 6 Science Curiosity Chapter 9 Methods of Separation in Everyday Life Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-9/
See lessWe are proud of our Indian heritage. Under supervision of your elders, try to prepare some herbal remedies using various parts of plants. For example—tulsi kadha. Which methods of separation will you use while preparing herbal kadha?
When preparing herbal kadha, start by boiling plant parts like tulsi leaves to extract their medicinal properties into the liquid. After boiling, use filtration to separate the solid plant material from the liquid extract. If needed, evaporation can be employed to concentrate the herbal solution furRead more
When preparing herbal kadha, start by boiling plant parts like tulsi leaves to extract their medicinal properties into the liquid. After boiling, use filtration to separate the solid plant material from the liquid extract. If needed, evaporation can be employed to concentrate the herbal solution further by removing excess water. These separation methods help ensure that the kadha is clear and contains the concentrated active ingredients from the herbs, making it effective for its intended use.
For more CBSE Class 6 Science Curiosity Chapter 9 Methods of Separation in Everyday Life Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-9/
See lessImagine you and your friend are Malli and Valli. Write dialogues of a play presenting their entire Bharat ki Yatra, highlighting the different methods of separation of substances that they observed. Enact the play in your school assembly.
A script for a play featuring Malli and Valli's Bharat ki Yatra. Malli: “Valli, our Bharat ki Yatra was so fascinating! Remember when we visited the water purification plant?” Valli: “Yes, Malli! We saw filtration in action there. The plant used filters to remove dirt and impurities from the water,Read more
A script for a play featuring Malli and Valli’s Bharat ki Yatra.
Malli: “Valli, our Bharat ki Yatra was so fascinating! Remember when we visited the water purification plant?”
Valli: “Yes, Malli! We saw filtration in action there. The plant used filters to remove dirt and impurities from the water, making it clean and safe to drink.”
Malli: “Absolutely! And then at the dairy farm, we observed how a centrifuge separates cream from milk. The machine spun the milk at high speeds, causing the cream to rise and separate from the milk.”
Valli: “That was incredible! And don’t forget our trip to the beach. We saw how evaporation works in nature. The sun evaporated seawater, leaving behind salt crystals on the surface.
Malli: “Yes, Valli! Each method of separation was a great learning experience. We saw filtration, centrifugation, and evaporation all in action.”
Valli: “Indeed, Malli! Our journey helped us understand how these methods are used in everyday life. It’s amazing how science helps us in so many ways!”
Malli: “It was truly an educational adventure! Let’s share these experiences with everyone and continue exploring!”
Valli: “Definitely! Our Bharat ki Yatra was both fun and informative.”
For more CBSE Class 6 Science Curiosity Chapter 9 Methods of Separation in Everyday Life Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-9/
See lessObserve and list separation methods you employed and noticed in your surroundings throughout a week. Explain the reasons behind using these methods and compile the ones you utilised or observed the most. Compare your observations with your group members.
Throughout the week, I noticed several separation methods in use. For instance, filtration was used in our water purifier to remove impurities, evaporation occurred when drying clothes to remove moisture, and decantation was observed when separating oil from water in the kitchen. Each method was empRead more
Throughout the week, I noticed several separation methods in use. For instance, filtration was used in our water purifier to remove impurities, evaporation occurred when drying clothes to remove moisture, and decantation was observed when separating oil from water in the kitchen. Each method was employed for its specific purpose: filtration for clearing liquids, evaporation for removing water, and decantation for separating immiscible liquids. Comparing with my group, we all observed similar methods, highlighting their importance in daily life.
For more CBSE Class 6 Science Curiosity Chapter 9 Methods of Separation in Everyday Life Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-9/
See less