• Congratulations to the Class of 2024 on your results!
    Let us know how you went here
    Got a question about your uni preferences? Ask us here

Search results

  1. M

    Module C English advanced prediction?

    its better, you can also reference your piece in reflection by name
  2. M

    Module C English advanced prediction?

    It really depends on the quote / excerpt, you probably don't have to write anything verbatim just close enough so that the marker knows your referencing the quote.
  3. M

    Module C English advanced prediction?

    Nah, I think that's a waste. But its better than not addressing the quote / excerpt you should have part of it in there, at least the general idea of the excerpt.
  4. M

    Does anyone know how to do this?

    1 over anything has a horizontal asymptote, but yeah you have to visualise the graph
  5. M

    Does anyone know how to do this?

    discriminant < 0 means no x intercepts so that when you do 1 over, there is no vertical asymptotes but there is still one horizontal asymptote. does that clear the confusion?
  6. M

    Does anyone know how to do this?

    this is basically picking the answer that fits the best, which is why you might be confused. b^2-16a^2<0 b^2<16a^2 -4a<b<4a since a>1 then we can say that -1 \leq b \leq 4 satisfies the condition
  7. M

    BoS Trials Maths, Physics and Business Studies 2023

    Try solving it without considering the limits at all. You get the same answer, maybe its wrong since doing u=x^3 changes the limits so that you can't cancel out the integrals but I don't know how you properly account for that. Since wolfram alpha can't get it the antiderivative is probably...
  8. M

    BoS Trials Maths, Physics and Business Studies 2023

    so the answer to the indefinite integral is \frac{\ln(x+1) \ln(x^3+1)}{3} ? Can you differentiate to check?
  9. M

    BoS Trials Maths, Physics and Business Studies 2023

    How do you do this? \int_0^1 \frac{x^2 \ln(1+x+x^9+x^{10})}{1+x^3}dx Wolfram alpha can't get a closed form answer for this but I think it's \frac{\ln^2{2}}{3}
  10. M

    Maths Extension 2 2023 Predictions?

    they got backlash from making it hard last year so they'll definitely make it easier. Not that much easier though.
  11. M

    4u maths difficulty

    Its fine, I spent about 3-4 hours when I did on each exercise when I first did them (will probs get high E4). Some longer, some shorter so 5hrs is ok. I'd advise not spending more than like 20 minutes on a single question unless you really want to, just to save time. Take your time to soak in...
  12. M

    2020 hsc

    dy/dx= f'(x) - g'(x) = 0
  13. M

    2020 hsc

    lets say y=f(x)-g(x) we have dy/dx=0 that means at every point the function doesn't change and therefore is a constant function. You can check this by integrating dy/dx=0. The only problem with this is that if the function is discontinuous, the value can jump without changing, think |x|/x...
  14. M

    2020 hsc

    its monic therefore it should be going upwards on each side therefore either c or d. since its divisible by x^2+x+1 you can think of it as p(x)=(x^2+x+1)(x-a)^2 so only the double root exists so it cant be D therefore C
  15. M

    Polynomial

    this is how I did it. Maybe there's a faster way to prove the roots have magnitude 1 before finding them. I don't think there is but if that's given you could say z+1/z =2costheta and not have to solve the second quadratic.
  16. M

    Polynomial

    ill do it one sec
  17. M

    Polynomial

    that would be so slow, just do tywebb's method first to find complex roots then use that to find two quadratics
  18. M

    How do u make z's look less like 2's (but efficiently?)

    How about terminal velocity? like capital V and lowercase v.
Top