aerobilal said:why do bottles or any other things thrown up with a twist always spin about their centre of gravity? Also if all forces pass through centre of gravity of a rocket in space, it will not rotate , even though there is a net moment about any other point except the cg. why
The centre of gravity is the point where the entire weight of an object can be considered to act upon. It is the point at which an object is perfectly balanced, and all forces acting on the object are in equilibrium.
The centre of gravity for an object can be determined by finding the point at which the object would balance perfectly. This can be done experimentally by physically balancing the object, or mathematically by calculating the weighted average of the distribution of mass within the object.
Spinning motion around the centre of gravity is when an object rotates or spins around its central point of balance. This type of motion is commonly seen in objects such as tops, planets, and even our own bodies when we perform tasks like pirouettes or cartwheels.
The spinning motion around the centre of gravity can affect an object in various ways. It can impact the stability and balance of the object, as well as the direction and speed of its spin. It can also influence the forces acting on the object, such as centripetal force, which keeps the object in its circular path.
Some common examples of spinning motion around the centre of gravity include figure skaters performing spins, planets orbiting around the sun, and yo-yos spinning around their center point. Other examples include spinning objects in space, such as satellites, and the spinning motion of a gymnast on a balance beam.