Why Is Answer A Correct for the Oscillation Problem?

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SUMMARY

The discussion centers on the oscillation problem from an IB Physics homework assignment, specifically addressing why answer A is correct over answer C. The participant initially believed that since the ball is described as "stationary," all forces must be equal, leading to confusion. However, upon further analysis, it was clarified that the forces indeed sum to zero when considered as vectors, confirming that answer A is correct. This highlights the importance of understanding vector addition in physics problems.

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Homework Statement


Hi! My question is about oscillation. The multiple choice answers and question is included in the picture attached! I also happen to know the answer is A by looking at the marscheme.


The Attempt at a Solution


I would've thought that since the ball is said to be held "stationary" in that position the forces would all have to be equal. Thus i would've thought C was the correct answer. If they had said that it's an oscillation where the ball is in position P and not mentioned it being held stationary, I would've answered A, however, knowing that the forces would've had to be unbalanced and acting towards the equilbrium point. Could anybody explain exactly why it's A? and not C? I think my problem is probably largely due to interpretation of the question. Thankyou for any replies!
 

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If the ball is stationary then the forces must sum to zero net force. If they were all equal, would the sum be zero? Remember, you're adding vectors here.
 
Hi, magiclink!
Is that IB Physics?
 
Hey! I just looked at the question and gave it a good look again. Turns out that the vectors did add vectorally to equal zero. A bit of an optical illusion to me. Thanks anyways! Sorry for wasting your time! :)


And yes, tis IB physics indeed. ;)
 

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