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Aristarchus_
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- Homework Statement
- How would one approximate the time it takes for the pendulum to come to a final stop? Including all the factors...
- Relevant Equations
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What else do you know about the pendulum other than it comes to a stop?Aristarchus_ said:Homework Statement:: How would one approximate the time it takes for the pendulum to come to a final stop? Including all the factors...
Relevant Equations:: e
e
Nothing other than masskuruman said:What else do you know about the pendulum other than it comes to a stop?
The time it takes for a pendulum to come to a stop is affected by the length of the pendulum, the mass of the bob, and the force of gravity. These factors determine the period of the pendulum, which is the time it takes for the pendulum to complete one full swing.
No, the amplitude of the pendulum does not affect the time for it to come to a stop. The period of a pendulum is only dependent on the length of the pendulum and the force of gravity, not the amplitude of its swing.
Air resistance can slow down the pendulum's swing, causing it to take longer to come to a stop. This is because air resistance creates a force that acts in the opposite direction of the pendulum's motion, reducing its speed and causing it to lose energy.
Yes, the material of the pendulum can affect the time for it to come to a stop. A pendulum made of a denser material will have a higher mass, which will affect its period and the time it takes to come to a stop. Additionally, the material can also affect air resistance and friction, which can impact the pendulum's motion.
The time for a pendulum to come to a stop can be calculated using the equation T = 2π√(L/g), where T is the period, L is the length of the pendulum, and g is the acceleration due to gravity. This equation assumes that there is no air resistance or friction acting on the pendulum.