VCE Methods Question Thread!

[Zealous]

Hello!
Could someone please explain to me Q21 from VCAA 2011 Exam 2? I don't understand the solution (from VCAA and iTute), any other methods of approaching it?

http://www.vcaa.vic.edu.au/Documents/exams/mathematics/2011mmcas2-w.pdf (Page 10)

Thanks!

[b^3]

This is still VCAA's way of doing it but hope it explains it a bit more, I added in what each step is doing or where it's getting each step from.



Hence Option E.

EDIT:
For the part, we can look at the venn diagram below. We want “Whats in but not ” (which is just the blue shaded region), which is just what is in (both the blue shaded and dual shaded reigons) minus what is in the intersection (the dual shaded region).

[TrueTears]

Screw venn diagrams and karnaugh graphs, (naive) set theory ftw!

[RKTR]

For independent events, Pr(A n B) = Pr(A) x Pr(B)

question says Pr( P n Q) = Pr( P' n Q)

so for them to be independent events , Pr(P n Q) will be Pr(P) x Pr(Q), Pr(P' n Q) will be Pr(P') x Pr(Q)

Pr(P) x Pr(Q) = Pr(P') x Pr(Q)

Pr(P) = Pr(P')  (1)
Pr(P) + Pr(P') =1  (2)
Sub 1 into 2
2Pr(P) =1
Pr(P)=1/2

is this way ok?

[SocialRhubarb]

is this way ok?

Given that it's a multiple choice question, I'd say any method that gives you the right answer is fine. : )

[clıppy]

VCAA 2009 Exam 1 Q10

For part a, what should our working out show? Do we write f(x + h) or f(x+h) = or f(8 + 0.06) =? And should our final answer be a decimal, mixed fraction, improper fraction?

And can someone please explain part b

[b^3]

Since its an approximation you need to have the , as and are not equal (give that )..
So I'd have something like this.


Normally I'd put it as a fraction, but I guess since it's an approximation I guess you can turn it into a decimal, the exaimer's report has both, just make sure at the end when you state that you use the approximate sign.

For part b, since is decreasing (and positive) at the point that we're approximating our curve with, if we draw a tangent to the curve at , this tangent line will be above the curve of . This tangent is effectively (given that is small) what we're using to approximate the value of the curve at our new point, so since the curve is lower than our tangent/approximation line, our approximate value will be greater than the actual value.

[YouAreNowReadingMyName]

Looking at b^3's working out immediately above, are you allowed to put approx. equal to in line 1 and then exactly equal to in the lines below like you've done?

[b^3]

I think your are (as far as VCE is concerned anyways), since we're saying that is approximately equal to , but then is exactly equal to . That is with the blank lines, we're saying that the new line is equal to the RHS of the previous line. Looking back, essentials does it this way. If you want to be completely safe I guess you could have the approximate on every line, the important thing is that you don't state that , as this is not true, but rather .

EDIT: On second thought, make them all approx's.... Hmm now that looks odd.

EDIT2: On third thought, go back to the original.

EDIT3: Fixed wording a little.

[Zealous]

This is still VCAA's way of doing it but hope it explains it a bit more, I added in what each step is doing or where it's getting each step from.

Thanks b^3 and the others who inputted on this.
I seriously don't think I'd think of doing that on the exam, the question is a little uncommon I guess for a probability question. I did something different by setting up a karnaugh table and letting pronumerals equal certain things, but that didn't really work out.

[YouAreNowReadingMyName]

              Pr(P)        Pr(P')
Pr(Q)        x              x         2x
Pr(Q')
                1/2                      1


That's how you do it with a table. I hope this comes up with the right formatting.

Edit: table was an utter fail, still a fail but a little better (hopefully)

[Zealous]

              Pr(P)        Pr(P')
Pr(Q)        x              x         2x
Pr(Q')
                1/2                      1


That's how you do it with a table. I hope this comes up with the right formatting.

Edit: table was an utter fail, still a fail but a little better (hopefully)

Haha, I was just correcting my mistake when I did it with the table.

Glad I actually got it working, and what I tried to do when I did the practice exam was on the right track.

For those who are interested, this is how I would probably approach it (I'm not as confident with the VCAA method):

[darklight]

If the graph of f has a stationary point of inflection on the x-axis at x=-2, passes through the origin and is of the form f(x)=ax^4 + bx^3 -24x^2 + cx, with a,b and c being real constants, then b equals? (Ans = -12)

[lzxnl]

Stationary point of inflection on x axis at x=-2 => graph of form y=a(x+2)^3*(x-c) where c is the other intercept.
It says passes through origin, so y=ax*(x+2)^3

Expand both sides and compare coefficients.

You'd get ax(x^3+6x^2+12x+8) = ax^4+6ax^3+12ax^2+8x = ax^4+bx^3-24x^2+cx

Compare the x^2 coefficients: 12a=-24,a=-2
so 6ax = b = -12 from the x^3 coefficients

[darklight]

Stationary point of inflection on x axis at x=-2 => graph of form y=a(x+2)^3*(x-c) where c is the other intercept.
It says passes through origin, so y=ax*(x+2)^3

Expand both sides and compare coefficients.

You'd get ax(x^3+6x^2+12x+8) = ax^4+6ax^3+12ax^2+8x = ax^4+bx^3-24x^2+cx

Compare the x^2 coefficients: 12a=-24,a=-2
so 6ax = b = -12 from the x^3 coefficients

Thank you!