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acc/velocity rate of change (1 Viewer)

wollongong warrior

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Unless they mean O as in literally some position O instead of the origin then b is correct? The only option wrong is c
 

Tryingtodowell

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btw dont u integrate for part a (Idk what im on about and I havent learnt integration yet😭)
 

Average Boreduser

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idk it was just a subpart and there was no more questions like that
Then this must be an old syllabus paper? Only other way i'd approach this question is differentiating the subpart (a) and showing it's equal to x(dot)? But surely that could have been worded better lmao
 

Tryingtodowell

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Then this must be an old syllabus paper? Only other way i'd approach this question is differentiating the subpart (a) and showing it's equal to x(dot)? But surely that could have been worded better lmao
its not a past paper
its textbook work
 

Average Boreduser

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its not a past paper
its textbook work
regardless, the method you took (I'm assuming you differentiated x to see if it satisfied x(dot). the reason why b is wrong is because you didn't take into consideration about constants that may actually be present in the displacement function. it doesn't ask for 'possible graphs', rather its directly asking if said statement was correct. whilst 3t^2-4 wtv is a possible solution of x, it doesn't provide the general case which considers all functions with the same gradient function which may or may not include constants . all in all-> wait till you learn integration and everything should sink into place.
 
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