The lighter component, the husk, gets blown away by the wind. When the farmer moves the bamboo tray, the wind carries the husk further from the platform due to its low weight and high surface area. In contrast, the heavier wheat grains remain largely unaffected and drop close to the platform. This pRead more
The lighter component, the husk, gets blown away by the wind. When the farmer moves the bamboo tray, the wind carries the husk further from the platform due to its low weight and high surface area. In contrast, the heavier wheat grains remain largely unaffected and drop close to the platform. This process illustrates the principle of separation based on weight, where lighter materials are more easily displaced by air movement, resulting in a clear distinction between the two components.
For more CBSE Class 6 Science Curiosity Chapter 9 Methods of Separation in Everyday Life Extra Questions & Answer:
Yes, the wind can separate the two components, wheat grains and husk. As the farmer moves the bamboo tray, the wind carries away the lighter husk, while the heavier wheat grains fall directly beneath the tray. This natural separation illustrates the principles of winnowing, where airflow is utilizedRead more
Yes, the wind can separate the two components, wheat grains and husk. As the farmer moves the bamboo tray, the wind carries away the lighter husk, while the heavier wheat grains fall directly beneath the tray. This natural separation illustrates the principles of winnowing, where airflow is utilized to distinguish materials based on their weight. The process showcases the effectiveness of using wind as a tool for separation in agricultural practices, enhancing efficiency during grain processing.
For more CBSE Class 6 Science Curiosity Chapter 9 Methods of Separation in Everyday Life Extra Questions & Answer:
In the process of separation, handpicking is primarily utilized for sorting. This method allows individuals to manually eliminate impurities or unwanted items from a mixture, such as removing stones from grains or debris from seeds. It is particularly advantageous when the materials to be sorted areRead more
In the process of separation, handpicking is primarily utilized for sorting. This method allows individuals to manually eliminate impurities or unwanted items from a mixture, such as removing stones from grains or debris from seeds. It is particularly advantageous when the materials to be sorted are large enough to be easily identified. Handpicking enhances the quality of the final product and is commonly used in agricultural practices and food processing, ensuring a cleaner and more refined output.
For more CBSE Class 6 Science Curiosity Chapter 9 Methods of Separation in Everyday Life Extra Questions & Answer:
Churning is an effective separation technique primarily used to separate cream from milk. During this process, mechanical agitation causes the fat molecules in the milk to clump together and rise to the surface, forming cream. The remaining liquid, known as buttermilk, is left behind. This method isRead more
Churning is an effective separation technique primarily used to separate cream from milk. During this process, mechanical agitation causes the fat molecules in the milk to clump together and rise to the surface, forming cream. The remaining liquid, known as buttermilk, is left behind. This method is widely employed in dairy industries to produce butter and cream, showcasing its efficiency in separating components based on their physical properties. It’s a traditional technique that remains relevant in both commercial and home settings.
For more CBSE Class 6 Science Curiosity Chapter 9 Methods of Separation in Everyday Life Extra Questions & Answer:
Filtration relies heavily on pore size, which is crucial for separating solids from liquids. A filter with appropriately sized pores allows liquid to flow through while trapping larger particles. This method is commonly used in various applications, such as water purification, laboratory processes,Read more
Filtration relies heavily on pore size, which is crucial for separating solids from liquids. A filter with appropriately sized pores allows liquid to flow through while trapping larger particles. This method is commonly used in various applications, such as water purification, laboratory processes, and industrial filtration systems. Choosing the right pore size is vital to achieve the desired filtration efficiency, ensuring that unwanted solids are effectively removed from the mixture.
For more CBSE Class 6 Science Curiosity Chapter 9 Methods of Separation in Everyday Life Extra Questions & Answer:
Which of the two components get blown away?
The lighter component, the husk, gets blown away by the wind. When the farmer moves the bamboo tray, the wind carries the husk further from the platform due to its low weight and high surface area. In contrast, the heavier wheat grains remain largely unaffected and drop close to the platform. This pRead more
The lighter component, the husk, gets blown away by the wind. When the farmer moves the bamboo tray, the wind carries the husk further from the platform due to its low weight and high surface area. In contrast, the heavier wheat grains remain largely unaffected and drop close to the platform. This process illustrates the principle of separation based on weight, where lighter materials are more easily displaced by air movement, resulting in a clear distinction between the two components.
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 the wind separate the two components?
Yes, the wind can separate the two components, wheat grains and husk. As the farmer moves the bamboo tray, the wind carries away the lighter husk, while the heavier wheat grains fall directly beneath the tray. This natural separation illustrates the principles of winnowing, where airflow is utilizedRead more
Yes, the wind can separate the two components, wheat grains and husk. As the farmer moves the bamboo tray, the wind carries away the lighter husk, while the heavier wheat grains fall directly beneath the tray. This natural separation illustrates the principles of winnowing, where airflow is utilized to distinguish materials based on their weight. The process showcases the effectiveness of using wind as a tool for separation in agricultural practices, enhancing efficiency during grain processing.
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 lessWhat purpose does handpicking serve in the process of separation? (i) Filtration (ii) Sorting (iii) Evaporation (iv) Decantation
In the process of separation, handpicking is primarily utilized for sorting. This method allows individuals to manually eliminate impurities or unwanted items from a mixture, such as removing stones from grains or debris from seeds. It is particularly advantageous when the materials to be sorted areRead more
In the process of separation, handpicking is primarily utilized for sorting. This method allows individuals to manually eliminate impurities or unwanted items from a mixture, such as removing stones from grains or debris from seeds. It is particularly advantageous when the materials to be sorted are large enough to be easily identified. Handpicking enhances the quality of the final product and is commonly used in agricultural practices and food processing, ensuring a cleaner and more refined output.
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 lessWhich of the following substances are commonly separated using the churning method? (i) Oil from water (ii) Sand from water (iii) Cream from milk (iv) Oxygen from air
Churning is an effective separation technique primarily used to separate cream from milk. During this process, mechanical agitation causes the fat molecules in the milk to clump together and rise to the surface, forming cream. The remaining liquid, known as buttermilk, is left behind. This method isRead more
Churning is an effective separation technique primarily used to separate cream from milk. During this process, mechanical agitation causes the fat molecules in the milk to clump together and rise to the surface, forming cream. The remaining liquid, known as buttermilk, is left behind. This method is widely employed in dairy industries to produce butter and cream, showcasing its efficiency in separating components based on their physical properties. It’s a traditional technique that remains relevant in both commercial and home settings.
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 lessWhich factor is usually essential for the filtration? (i) Apparatus size (ii) Presence of air (iii) Pore size (iv) Temperature of the mixture
Filtration relies heavily on pore size, which is crucial for separating solids from liquids. A filter with appropriately sized pores allows liquid to flow through while trapping larger particles. This method is commonly used in various applications, such as water purification, laboratory processes,Read more
Filtration relies heavily on pore size, which is crucial for separating solids from liquids. A filter with appropriately sized pores allows liquid to flow through while trapping larger particles. This method is commonly used in various applications, such as water purification, laboratory processes, and industrial filtration systems. Choosing the right pore size is vital to achieve the desired filtration efficiency, ensuring that unwanted solids are effectively removed from the mixture.
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