Using a meter scale, measure your friend’s height. First, record the height in meters (e.g., 1.6 meters). To express it in centimeters, multiply the meter value by 100, resulting in 160 centimeters. For millimeters, multiply the centimeter value by 10, giving 1600 millimeters. These conversions showRead more
Using a meter scale, measure your friend’s height. First, record the height in meters (e.g., 1.6 meters). To express it in centimeters, multiply the meter value by 100, resulting in 160 centimeters. For millimeters, multiply the centimeter value by 10, giving 1600 millimeters. These conversions show the same height in different units, helping to understand the relationships between meters, centimeters, and millimeters, which are all standard units for measuring length.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
To measure the length of the curved base of a tumbler or bottle, use a flexible measuring tape. Wrap it around the base, ensuring it follows the curve closely without gaps or overlaps. Record the measurement in centimeters or millimeters. This method allows you to determine the circumference, whichRead more
To measure the length of the curved base of a tumbler or bottle, use a flexible measuring tape. Wrap it around the base, ensuring it follows the curve closely without gaps or overlaps. Record the measurement in centimeters or millimeters. This method allows you to determine the circumference, which is the total length of the curved part. Accurate measurement is essential for understanding the relationship between circular objects and their corresponding linear dimensions.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
To express the distance between your school and home in meters, multiply the distance in kilometers by 1000. Since 1 kilometer equals 1000 meters, the 1.5 kilometers between your school and home is equivalent to 1500 meters. This conversion is simple: just multiply the kilometer value (1.5) by 1000,Read more
To express the distance between your school and home in meters, multiply the distance in kilometers by 1000. Since 1 kilometer equals 1000 meters, the 1.5 kilometers between your school and home is equivalent to 1500 meters. This conversion is simple: just multiply the kilometer value (1.5) by 1000, resulting in 1500 meters. Understanding such conversions helps in expressing distances in different units, making it easier to compare and calculate lengths in everyday situations.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
If there are no windows, determining if the ship is moving can be challenging. However, if you drop an object, observe its fall. On a moving ship, the object will fall straight down due to inertia, but if the ship were stationary, you might notice the object shifting relative to the ship due to theRead more
If there are no windows, determining if the ship is moving can be challenging. However, if you drop an object, observe its fall. On a moving ship, the object will fall straight down due to inertia, but if the ship were stationary, you might notice the object shifting relative to the ship due to the motion of the ship. Additionally, external indicators like a compass or GPS, if available, can confirm the ship’s movement.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
Some length measuring devices are made of flexible materials to accommodate measurements on curved or irregular surfaces, such as around pipes or objects with varying shapes. Flexible devices, like tape measures, can bend and wrap around these surfaces, providing accurate measurements where rigid ruRead more
Some length measuring devices are made of flexible materials to accommodate measurements on curved or irregular surfaces, such as around pipes or objects with varying shapes. Flexible devices, like tape measures, can bend and wrap around these surfaces, providing accurate measurements where rigid rulers or scales would be ineffective. This versatility makes flexible measuring tools essential for tasks requiring precision in various contexts, including construction, tailoring, and scientific measurements, ensuring accurate results regardless of the object’s shape.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
To read a scale accurately, position your eye perpendicular to the scale’s surface. This means looking straight on, rather than from an angle, to avoid parallax error. Parallax occurs when the position of your eye relative to the scale causes misalignment between the scale markings and the measuremeRead more
To read a scale accurately, position your eye perpendicular to the scale’s surface. This means looking straight on, rather than from an angle, to avoid parallax error. Parallax occurs when the position of your eye relative to the scale causes misalignment between the scale markings and the measurement pointer or line. By aligning your eye perpendicularly to the scale, you ensure that your line of sight is directly in line with the markings, resulting in a precise reading. This method helps to eliminate visual distortion and provides an accurate measurement, essential for tasks requiring exactness.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
When the ends of the scale are broken, you can still measure length by using a known reference point. Place the scale against a fixed surface and mark the starting point on the scale where it meets the reference point. Measure the length using another method, such as a piece of string or another rulRead more
When the ends of the scale are broken, you can still measure length by using a known reference point. Place the scale against a fixed surface and mark the starting point on the scale where it meets the reference point. Measure the length using another method, such as a piece of string or another ruler, to determine the length of the scale between the broken ends. Alternatively, align the scale with a known length and compare the markings to ensure accuracy. This method allows you to obtain the measurement despite the damage to the scale’s ends.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
If everyone measures the table length using the same meter scale and follows proper reading techniques, the results should be the same. Variations in results typically occur due to different scales, measurement errors, or parallax effects. A standard meter scale, if used correctly and consistently,Read more
If everyone measures the table length using the same meter scale and follows proper reading techniques, the results should be the same. Variations in results typically occur due to different scales, measurement errors, or parallax effects. A standard meter scale, if used correctly and consistently, minimizes discrepancies and ensures uniformity in measurements. Accurate readings depend on proper technique and using the same calibrated scale, reducing errors that can arise from different measuring tools or methods.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
Tape measures and rods are similar to the scale in a geometry box as they all measure length. However, tapes are flexible and rods are rigid, suited for various uses. The term "char angula" means "four fingers" in traditional measurement systems, roughly equivalent to 7-10 centimeters. This unit wasRead more
Tape measures and rods are similar to the scale in a geometry box as they all measure length. However, tapes are flexible and rods are rigid, suited for various uses. The term “char angula” means “four fingers” in traditional measurement systems, roughly equivalent to 7-10 centimeters. This unit was used in historical contexts to estimate lengths based on the width of four fingers. It highlights how measurement systems have evolved from body-based units to standardized ones.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
The meter is well-suited for measuring larger lengths, such as the length of a railway track between cities, due to its scale. However, for measuring smaller lengths, like the thickness of a book page, meters are less practical. For small measurements, units like millimeters or even micrometers offeRead more
The meter is well-suited for measuring larger lengths, such as the length of a railway track between cities, due to its scale. However, for measuring smaller lengths, like the thickness of a book page, meters are less practical. For small measurements, units like millimeters or even micrometers offer greater precision and are easier to read. Using appropriate units based on the measurement size ensures accuracy and convenience in recording and interpreting data.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
Measure the height of your friend and express it in (i) metres (ii) centimetres and (iii) millimetres.
Using a meter scale, measure your friend’s height. First, record the height in meters (e.g., 1.6 meters). To express it in centimeters, multiply the meter value by 100, resulting in 160 centimeters. For millimeters, multiply the centimeter value by 10, giving 1600 millimeters. These conversions showRead more
Using a meter scale, measure your friend’s height. First, record the height in meters (e.g., 1.6 meters). To express it in centimeters, multiply the meter value by 100, resulting in 160 centimeters. For millimeters, multiply the centimeter value by 10, giving 1600 millimeters. These conversions show the same height in different units, helping to understand the relationships between meters, centimeters, and millimeters, which are all standard units for measuring length.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-5/
See lessTake a tumbler or a bottle. Measure the length of the curved part of the base of glass or bottle and record it.
To measure the length of the curved base of a tumbler or bottle, use a flexible measuring tape. Wrap it around the base, ensuring it follows the curve closely without gaps or overlaps. Record the measurement in centimeters or millimeters. This method allows you to determine the circumference, whichRead more
To measure the length of the curved base of a tumbler or bottle, use a flexible measuring tape. Wrap it around the base, ensuring it follows the curve closely without gaps or overlaps. Record the measurement in centimeters or millimeters. This method allows you to determine the circumference, which is the total length of the curved part. Accurate measurement is essential for understanding the relationship between circular objects and their corresponding linear dimensions.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-5/
See lessSuppose the distance between your school and home is 1.5 km. Express it in metres.
To express the distance between your school and home in meters, multiply the distance in kilometers by 1000. Since 1 kilometer equals 1000 meters, the 1.5 kilometers between your school and home is equivalent to 1500 meters. This conversion is simple: just multiply the kilometer value (1.5) by 1000,Read more
To express the distance between your school and home in meters, multiply the distance in kilometers by 1000. Since 1 kilometer equals 1000 meters, the 1.5 kilometers between your school and home is equivalent to 1500 meters. This conversion is simple: just multiply the kilometer value (1.5) by 1000, resulting in 1500 meters. Understanding such conversions helps in expressing distances in different units, making it easier to compare and calculate lengths in everyday situations.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-5/
See lessSuppose you are travelling on a ship which is moving at a constant speed along a straight line on a calm sea. Suppose there is no window on the ship. Is there any way that you can determine whether the ship is moving or is stationary?
If there are no windows, determining if the ship is moving can be challenging. However, if you drop an object, observe its fall. On a moving ship, the object will fall straight down due to inertia, but if the ship were stationary, you might notice the object shifting relative to the ship due to theRead more
If there are no windows, determining if the ship is moving can be challenging. However, if you drop an object, observe its fall. On a moving ship, the object will fall straight down due to inertia, but if the ship were stationary, you might notice the object shifting relative to the ship due to the motion of the ship. Additionally, external indicators like a compass or GPS, if available, can confirm the ship’s movement.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-5/
See lessWhy are some length measuring devices made up of flexible materials?
Some length measuring devices are made of flexible materials to accommodate measurements on curved or irregular surfaces, such as around pipes or objects with varying shapes. Flexible devices, like tape measures, can bend and wrap around these surfaces, providing accurate measurements where rigid ruRead more
Some length measuring devices are made of flexible materials to accommodate measurements on curved or irregular surfaces, such as around pipes or objects with varying shapes. Flexible devices, like tape measures, can bend and wrap around these surfaces, providing accurate measurements where rigid rulers or scales would be ineffective. This versatility makes flexible measuring tools essential for tasks requiring precision in various contexts, including construction, tailoring, and scientific measurements, ensuring accurate results regardless of the object’s shape.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-5/
See lessWhat is the correct position of the eye while reading the scale?
To read a scale accurately, position your eye perpendicular to the scale’s surface. This means looking straight on, rather than from an angle, to avoid parallax error. Parallax occurs when the position of your eye relative to the scale causes misalignment between the scale markings and the measuremeRead more
To read a scale accurately, position your eye perpendicular to the scale’s surface. This means looking straight on, rather than from an angle, to avoid parallax error. Parallax occurs when the position of your eye relative to the scale causes misalignment between the scale markings and the measurement pointer or line. By aligning your eye perpendicularly to the scale, you ensure that your line of sight is directly in line with the markings, resulting in a precise reading. This method helps to eliminate visual distortion and provides an accurate measurement, essential for tasks requiring exactness.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-5/
See lessHow to measure the length if the ends of the scale are broken?
When the ends of the scale are broken, you can still measure length by using a known reference point. Place the scale against a fixed surface and mark the starting point on the scale where it meets the reference point. Measure the length using another method, such as a piece of string or another rulRead more
When the ends of the scale are broken, you can still measure length by using a known reference point. Place the scale against a fixed surface and mark the starting point on the scale where it meets the reference point. Measure the length using another method, such as a piece of string or another ruler, to determine the length of the scale between the broken ends. Alternatively, align the scale with a known length and compare the markings to ensure accuracy. This method allows you to obtain the measurement despite the damage to the scale’s ends.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-5/
See lessSuppose we all measure the length of the table again, but this time using a metre scale. Will our results still be different?
If everyone measures the table length using the same meter scale and follows proper reading techniques, the results should be the same. Variations in results typically occur due to different scales, measurement errors, or parallax effects. A standard meter scale, if used correctly and consistently,Read more
If everyone measures the table length using the same meter scale and follows proper reading techniques, the results should be the same. Variations in results typically occur due to different scales, measurement errors, or parallax effects. A standard meter scale, if used correctly and consistently, minimizes discrepancies and ensures uniformity in measurements. Accurate readings depend on proper technique and using the same calibrated scale, reducing errors that can arise from different measuring tools or methods.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-5/
See lessAre the tape and rod similar to the scale that the elder sister has in her geometry box? What did mother mean by char angula?
Tape measures and rods are similar to the scale in a geometry box as they all measure length. However, tapes are flexible and rods are rigid, suited for various uses. The term "char angula" means "four fingers" in traditional measurement systems, roughly equivalent to 7-10 centimeters. This unit wasRead more
Tape measures and rods are similar to the scale in a geometry box as they all measure length. However, tapes are flexible and rods are rigid, suited for various uses. The term “char angula” means “four fingers” in traditional measurement systems, roughly equivalent to 7-10 centimeters. This unit was used in historical contexts to estimate lengths based on the width of four fingers. It highlights how measurement systems have evolved from body-based units to standardized ones.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-5/
See lessWould it be convenient to use the unit metre to measure larger lengths, such as the length of a railway track between two cities, or to measure smaller lengths, such as the thickness of a page of a book?
The meter is well-suited for measuring larger lengths, such as the length of a railway track between cities, due to its scale. However, for measuring smaller lengths, like the thickness of a book page, meters are less practical. For small measurements, units like millimeters or even micrometers offeRead more
The meter is well-suited for measuring larger lengths, such as the length of a railway track between cities, due to its scale. However, for measuring smaller lengths, like the thickness of a book page, meters are less practical. For small measurements, units like millimeters or even micrometers offer greater precision and are easier to read. Using appropriate units based on the measurement size ensures accuracy and convenience in recording and interpreting data.
For more CBSE Class 6 Science Curiosity Chapter 5 Measurement of Length and Motion Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-5/
See less