How does acceleration affect the period of a pendulum in an elevator?

Click For Summary
SUMMARY

The period of a simple pendulum in an elevator is influenced by the elevator's acceleration. When the elevator accelerates upward at 5 m/s², the period remains unchanged due to the independence of amplitude and period. At a constant speed of 5 m/s, the period also remains the same. Conversely, when the elevator accelerates downward at 5 m/s², the period still does not change. However, in free fall (9.81 m/s² downward), the period effectively increases to infinity, as the gravitational force acting on the pendulum is nullified.

PREREQUISITES
  • Understanding of simple harmonic motion
  • Familiarity with the equation for the period of a pendulum: T = 2π(L/g)
  • Basic knowledge of forces and acceleration
  • Concept of gravitational force and its effect on pendulum motion
NEXT STEPS
  • Study the effects of varying gravitational forces on pendulum motion
  • Explore the concept of free fall and its implications on oscillatory systems
  • Learn about the dynamics of pendulums in non-inertial reference frames
  • Investigate the relationship between amplitude and period in simple harmonic motion
USEFUL FOR

Students of physics, educators teaching mechanics, and anyone interested in the dynamics of oscillatory systems in varying gravitational contexts.

ThatDude
Messages
33
Reaction score
0

Homework Statement



The question is:

A simple pendulum is mounted in an elevator. What happens
to the period of the pendulum (does it increase, decrease, or
remain the same) if the elevator
(a) accelerates upward at 5 m/s/s
(b) moves upward at a steady 5 m/s
(c) accelerates downward at 5 m/s/s
(d) accelerates downward at 9.81 m/s/s
Justify your answers.

My answer:

(a) If the elevator accelerates upward, there is a greater upward force, therefore the amplitude will decrease. However, the amplitude and period are independent of each other, therefore, the period shall remain the same.

(b) At constant speed, the period is the same

(c) If it accelerated downward, lesser upward force, therefore the amplitude will decrease --> period is still the same.

(d) No effect on the period for the same reasons as mentioned above.

I don't know if I approached these questions correctly; can someone please help me out?
Thank you.
 
Physics news on Phys.org
Can you write the equation for the period of a simple pendulum? What variables does it depend upon? Can any of them be affected during an elevator ride?
 
Situation (d) where you are accelerating downwards at 9.81 m/s/s, this is just free fall, right?

So if I dropped a pendulum and let it freely fall, are you saying it would oscillate like normal (while it's falling)?
 
Ok. For some reason I was thinking this was a vertical spring-block system in an elevator!

@gneill , the equation for the period of a simple pendulum is T = 2pi (L/g). The gravitational force is constant throughout as well as the length of the spring, so I don't think that amplitude would be affected.

@Nathanael , no, it would just fall the same way an apple would fall from a tree.
 
Well what if you moved the pendulum to deep outer space? Would it swing? Can this environment be replicated?

Be careful to trust equation merely on their variables and learn to understand how they are formed/derived
 
Well, to make it swing, there must be some sort of restoring force.
 
ThatDude said:
Well, to make it swing, there must be some sort of restoring force.
Correct. What's the usual source of that restoring force?
 
The gravitational force.
 
ThatDude said:
The gravitational force.
Right. So some a force Mg acts on the bob, and some component of that resolves into the restoring force. What happens if the pendulum is being accelerated upwards or downwards?
 
  • #10
That force mg changes. If it is being accelerated upward, from the frame of the pendulum, the acceleration is greater. If it is being accelerated downward, then that force would be less. The greater the acceleration, the less the period.
 
  • #11
ThatDude said:
That force mg changes. If it is being accelerated upward, from the frame of the pendulum, the acceleration is greater. If it is being accelerated downward, then that force would be less. The greater the acceleration, the less the period.
Bingo! :)
 
  • #12
ThatDude said:
The greater the acceleration, the less the period.
Just to drill the point a bit more; it depends on what direction it is being accelerated in.
In the free fall case (acceleration = 9.81 m/s/s downwards) the period increases to "infinity." But if the acceleration were 9.81 m/s/s upwards the period would be decreased.
 

Similar threads

Finding the period of a pendulum in motion along a curve
  • · Replies 8 ·
Replies
8
Views
2K
Mechanics: Elevator Accelerating Downward
  • · Replies 10 ·
Replies
10
Views
4K
Force and Kinematics -- Accelerating a 10kg box vertically
  • · Replies 5 ·
Replies
5
Views
2K
The period of a simple pendulum
  • · Replies 20 ·
Replies
20
Views
2K
Foucault Pendulum at the North Pole
  • · Replies 9 ·
Replies
9
Views
2K
Monkey accelerating up and down a rope
  • · Replies 38 ·
2
Replies
38
Views
5K
Scale Reading in Elevator: Mass, Acceleration, and Velocity Calculations
  • · Replies 6 ·
Replies
6
Views
3K
Apparent weight of a man standing in an elevator
  • · Replies 24 ·
Replies
24
Views
8K
How do you know when k in Hooke's law is positive or negativ
  • · Replies 2 ·
Replies
2
Views
3K
Three masses in an elevator accelerating downwards
  • · Replies 8 ·
Replies
8
Views
3K