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  1. The SI unit of angular displacement is radian (rad), which is a dimensionless quantity. Degree is a non-SI unit. This question related to Chapter 1 physics Class 11th NCERT. From the Chapter 1. Units and Measurements. Give answer according to your understanding. For more please visit here: https://wRead more

    The SI unit of angular displacement is radian (rad), which is a dimensionless quantity. Degree is a non-SI unit. This question related to Chapter 1 physics Class 11th NCERT. From the Chapter 1. Units and Measurements. Give answer according to your understanding.

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    https://www.tiwariacademy.com/ncert-solutions/class-11/physics/chapter-1/

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  2. Total reading: Total Reading = Main Scale+ (Vernier Reading * Least Count). 3+(7 * 0.01) = 3.07cm. For more please visit here: https://www.tiwariacademy.com/ncert-solutions/class-11/physics/chapter-1/

    Total reading:
    Total Reading = Main Scale+ (Vernier Reading * Least Count).
    3+(7 * 0.01) = 3.07cm.

    For more please visit here:
    https://www.tiwariacademy.com/ncert-solutions/class-11/physics/chapter-1/

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  3. Only 5 and 2 are significant. Leading zeros are not counted. This question related to Chapter 1 physics Class 11th NCERT. From the Chapter 1. Units and Measurements. Give answer according to your understanding. For more please visit here: https://www.tiwariacademy.com/ncert-solutions/class-11/physicRead more

    Only 5 and 2 are significant. Leading zeros are not counted. This question related to Chapter 1 physics Class 11th NCERT. From the Chapter 1. Units and Measurements. Give answer according to your understanding.

    For more please visit here:
    https://www.tiwariacademy.com/ncert-solutions/class-11/physics/chapter-1/

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    • 6
  4. The moment of inertia of a body depends on several factors that determine how it resists rotational motion. One of the most important factors is the 'mass of the body'. The greater the mass, the higher the moment of inertia, provided other conditions remain the same. Another important factor is theRead more

    The moment of inertia of a body depends on several factors that determine how it resists rotational motion. One of the most important factors is the ‘mass of the body’. The greater the mass, the higher the moment of inertia, provided other conditions remain the same. Another important factor is the ‘distribution of mass’ relative to the axis of rotation. Mass located further from the axis contributes more significantly to the moment of inertia than mass close to the axis.

    The ‘axis of rotation’ itself plays a critical role. The moment of inertia depends on the specific axis about which the body rotates. Changing the axis alters the distances of the mass elements from it, which in turn changes the value of the moment of inertia. The ‘shape and size’ of the body also have a lot to say in this regard. Different shapes, such as spheres, cylinders, or rods, distribute mass differently, affecting their moments of inertia.

    The orientation of the axis matters lastly. For example, the same body can have different moments of inertia when it is rotated around a different axis. This is due to the distance of mass elements from these axes. All of these are key factors in the understanding and designing of systems which involve rotational motion, ranging from machinery to sports equipment and vehicles.

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    • 9
  5. Temperature is a scalar as it has no direction. Velocity, acceleration, and force are vectors. For more please visit here: https://www.tiwariacademy.com/ncert-solutions/class-11/physics/chapter-1/

    Temperature is a scalar as it has no direction. Velocity, acceleration, and force are vectors.

    For more please visit here:
    https://www.tiwariacademy.com/ncert-solutions/class-11/physics/chapter-1/

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    • 7