Need help past HSC question (1 Viewer)
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Riproot
Addiction Psychiatrist
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Can you post the question here?
Just screen-shot it, paint it, and upload to here.
Cbf looking it up.
Just screen-shot it, paint it, and upload to here.
Cbf looking it up.
barbernator
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i got what your teacher got.
My understanding of this question is that the "possible solutions" have not included ∆PE, and also, i have no clue where they got there value for mass from. If you include ∆PE, and use the correct mass, you get 28.11m.
the mass can be found as we know the resistance to motion (Frictional force) is µN. And we also know µ=tan5. Therefore 18000=tan5 x mgcos5, and u get m=20.653 tonnes.
now, we let ∆PE + ∆KE =Fs.
F=18000+mgsin5, and now the only trick is to find the height when it stops, but this is found using sin as sin5=h/s, so h=s x sin5.
Then it is a matter of substitution and solving for s.
P.s, i'm not 100% sure this is right, but this is how to get the answer 28.11, or at least how i got it.
the mass can be found as we know the resistance to motion (Frictional force) is µN. And we also know µ=tan5. Therefore 18000=tan5 x mgcos5, and u get m=20.653 tonnes.
now, we let ∆PE + ∆KE =Fs.
F=18000+mgsin5, and now the only trick is to find the height when it stops, but this is found using sin as sin5=h/s, so h=s x sin5.
Then it is a matter of substitution and solving for s.
P.s, i'm not 100% sure this is right, but this is how to get the answer 28.11, or at least how i got it.