The weight on a pendulum is called a "bob" because the term "bob" historically referred to any weight suspended from a string or rope. It is often used in mechanical devices like pendulums to provide a swinging motion.
The weight on a pendulum is a 'mass' or a 'bob'.
Any terminal object such as the weight on a pendulum is known as a Bob. It can also be called a Mass
The bob of a pendulum is the mass or weight located at the bottom end of the pendulum that swings back and forth. It helps determine the period of the pendulum's motion and influences its overall behavior.
The mass at the end of the pendulum is the bob
Yes, the period of a pendulum is not affected by the weight of the pendulum bob. The period is determined by the length of the pendulum and the acceleration due to gravity. A heavier pendulum bob will swing with the same period as a lighter one of the same length.
The weight on a pendulum is a 'mass' or a 'bob'.
The bob is the weight on the end of the pendulum.
Any terminal object such as the weight on a pendulum is known as a Bob. It can also be called a Mass
The bob of a pendulum is the mass or weight located at the bottom end of the pendulum that swings back and forth. It helps determine the period of the pendulum's motion and influences its overall behavior.
The mass at the end of the pendulum is the bob
Yes, the period of a pendulum is not affected by the weight of the pendulum bob. The period is determined by the length of the pendulum and the acceleration due to gravity. A heavier pendulum bob will swing with the same period as a lighter one of the same length.
A bob is the weight on the end of a pendulum. It can take any shape, but is most often depicted as being round.
The normal term is "bob."
The weight of the bob will determine how long the pendulum swings before coming to rest in the absence of applied forces. The period, or time of 1 oscillation, is determined only by the length of the pendulum.
yes the weight of the bob makes difference
A pendulum is a type of simple machine called a lever. It consists of a rod with a weight (bob) at one end and a pivot point at the other. The swinging motion of the pendulum results from the transfer of gravitational potential energy to kinetic energy.
In an 'ideal' pendulum ... on paper ... the string that holds the 'bob' has no weight of its own, and ALL of the weight is in the bob. If that's true, then the formulaa for the period doesn't involve the weight of the bob, and it has no effect.In a 'real' pendulum, the string always has some weight of its own. In that case, technically, a heavier bob would move the 'average' center of mass lower, and would technically increase the period of the swing. But unles you're using a piece of steel anchor-cable for a string, the weight of the bob has no noticeable effect on the period.