When masss gets smaller inertia also gets smaller.
The inertia of a body is affected by its mass and distribution of mass, where more mass or mass distributed farther from the axis of rotation leads to greater inertia. Additionally, the shape and size of a body can also influence its inertia, where elongated or larger bodies typically have greater inertia compared to smaller or compact bodies.
Inertia varies depending on an object's mass. The greater the mass of an object, the greater its inertia. The shape and size of an object can also affect its inertia.
The amount of inertia of a body is determined by its mass - the greater the mass, the greater the inertia. Inertia also depends on the distribution of mass within the body - objects with more of their mass concentrated towards the outer edges have greater inertia. Additionally, the shape and size of an object can affect its inertia - larger and more compact objects tend to have more inertia.
Rotational inertia is directly proportional to the mass of an object and to the square of its distance from the axis of rotation. If the size of an object changes but the mass remains the same, the rotational inertia will also change because the distribution of mass relative to the axis of rotation will change.
Yes, inertia is a property of matter where it tends to resist changes in its motion. All objects, regardless of size or mass, exhibit inertia.
The inertia of a body is affected by its mass and distribution of mass, where more mass or mass distributed farther from the axis of rotation leads to greater inertia. Additionally, the shape and size of a body can also influence its inertia, where elongated or larger bodies typically have greater inertia compared to smaller or compact bodies.
Inertia varies depending on an object's mass. The greater the mass of an object, the greater its inertia. The shape and size of an object can also affect its inertia.
The amount of inertia of a body is determined by its mass - the greater the mass, the greater the inertia. Inertia also depends on the distribution of mass within the body - objects with more of their mass concentrated towards the outer edges have greater inertia. Additionally, the shape and size of an object can affect its inertia - larger and more compact objects tend to have more inertia.
As a particle's size gets smaller, its surface area-to-mass ratio increases. This is because as the particle shrinks, its volume (and therefore mass) decreases faster than its surface area. This increased surface area-to-mass ratio can influence the particle's reactivity, solubility, and other properties.
Rotational inertia is directly proportional to the mass of an object and to the square of its distance from the axis of rotation. If the size of an object changes but the mass remains the same, the rotational inertia will also change because the distribution of mass relative to the axis of rotation will change.
Yes, inertia is a property of matter where it tends to resist changes in its motion. All objects, regardless of size or mass, exhibit inertia.
A star's gravity increases when it gets smaller because the mass of the star remains constant while its size decreases. This results in the gravitational force becoming stronger as the distance between objects reduces, following the inverse square law of gravity.
The distribution of mass within the object can affect its inertia. An object with the mass distributed further from its axis of rotation will have higher inertia compared to an object with the same mass but a more compact distribution. Additionally, the shape and size of the object can also impact its inertia.
Not necessarily. Inertia depends on both an object's mass and how that mass is distributed. Two objects of the same size but with different densities or internal structures can have different inertias.
Rotational inertia depends on the mass of the object and how that mass is distributed around the axis of rotation. It is also influenced by the shape and size of the object.
The moon is smaller than the Earth so that would mean the size is smaller and the mass is also smaller because the mass depends on the size of the object so the moon would have less mass than Earth.
There are 2 basic size classes. The larger size gets to be about 45 lbs. The smaller size gets to be about 20 lbs.