Please help with this question (1 Viewer)

Pikapizza

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The above equation is displacement so unfortunately won't answer "how far" the particle travels (distance) if we were to just sub in 2pi. I think possibly finding the distance travelled between 0 and pi/2 on the sin curve (since it's all in one direction) then multiply by 4 (to complete the 4 quadrants of the sin curve) should give you how far it travelled in total.

Sorry for giving a really bad wording of the explanation (there should be a more formal way of explaining but I am a lil rusty)
 
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Life'sHard

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Displacement is just distance with direction
Screen Shot 2021-08-12 at 7.23.20 pm.png
 

ExtremelyBoredUser

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Hey, so this is pretty much what I did to find the distance.

I use the double angle identity; cos2x= 1 - 2sin^2x and rearranged it, I got 2sin^2x = 1-cos2x

Substituting:


x = 2+ 2(1-cos2t)
= 2 + 2 - 2cos2t
= 4 - 2cos2t

This is in a way better form because now you can find the period.

T = 2pi/n = 2pi/2 = pi

So now you know that one whole period is pi seconds, you should find the distance from 0 to pi/4 to get a scalar quantity.

x = 4 - 2cos(2*pi/4) = 4

Now since we know that the distance from 0 to pi4 is 4, we just need to multiply it by the amount of times to get to 2pi.

There's 8 strands of the 0-pi/4 distance in 2pi. pi/4*8 = 2pi.

Hence 8* 4= 32m

This is an algebraic way of doing it and what I did to save time but an alternative method (and much more safer) is simply graphing the function when you find it in the 4 - 2cos2x stage if you feel comfortable with doing that. I'm sure there's better ways of doing this but this is what came to my mind when first seeing the question.
 
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CM_Tutor

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To find distance travelled, you need the starting and finishing positions - that is, at and at - and its position whenever it stops moving - that is, when - in case it changes direction.












So, the distance travelled in seconds is metres.
 

CM_Tutor

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x = 4 - 2cos2t

This is in a way better form because now you can find the period.

T = 2pi/n = 2pi/2 = pi

So now you know that one whole period is pi seconds, you should find the distance from 0 to pi/4 to get a scalar quantity.

x = 4 - 2cos(2*pi/4) = 4

Now since we know that the distance from 0 to pi4 is 4, we just need to multiply it by the amount of times to get to 2pi.

There's 8 strands of the 0-pi/4 distance in 2pi. pi/4*8 = 2pi.

Hence 8* 4= 32m
There is an error here... at , , and so the distance travelled in a quarter of a period is 2 m, from to , making the total distance metres. The above answer has mistakenly taken the quarter-period distance as 4 m, which is why its answer of 32 m disagrees with my answer of 16 m.

Note also that this method only works so long as the times chosen do not include any change in the direction of motion. This is not a problem for the time period selected here, however.
 

ExtremelyBoredUser

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There is an error here... at , , and so the distance travelled in a quarter of a period is 2 m, from to , making the total distance metres. The above answer has mistakenly taken the quarter-period distance as 4 m, which is why its answer of 32 m disagrees with my answer of 16 m.

Note also that this method only works so long as the times chosen do not include any change in the direction of motion. This is not a problem for the time period selected here, however.

Ahhh. The wave starts at x=2 and from t=0 to t=2 the distance is x=2 to x=6 so I should've done (4-2)*8. My bad. I should've checked t = 0 to find the displacement it starts, or simply c in the original function, and then the displacement at t = pi/4.

1628812172138.png
 
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kimtuluu

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To find distance travelled, you need the starting and finishing positions - that is, at and at - and its position whenever it stops moving - that is, when - in case it changes direction.












So, the distance travelled in seconds is metres.
Thank you very much. This is a perfect working out I am looking for.
 

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