Year 12s: what will be the first way you research your future options? >>

Year 12s: what will be the first way you research your future options? >>

Year 12s: what will be the first way you research your future options? >>

WJEC C3/C4 8th/17th June 2016

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Original post by Ayaz789

(e^1 * pi/5 ) + answer in part 1 :smile:

:smile:

Thanks!

Question 2 b?

Guys any idea whats gonna be an A* this year?🙈

Original post by Ayaz789

(e^1 * pi/5 ) + answer in part 1 :smile:

:smile:

I got e^1 * answer in part 1 because you could just take out th e^1 from the integral.

Original post by Ayaz789

(e^1 * pi/5 ) + answer in part 1 :smile:

:smile:

Are you sure ? i thought it was e^1* answer of part a

Original post by Sogolhosseini

Guys any idea whats gonna be an A* this year?🙈

Probably 63-64

What did people get for the domain of f-1(x)?
I think I put [9,infinity)

I agree. Used the same method

Original post by FusionNetworks

I got e^1 * answer in part 1 because you could just take out th e^1 from the integral.

:smile:

I agree

Original post by FusionNetworks

What did people get for the domain of f-1(x)?
I think I put [9,infinity)

Yeah i got that :smile:

:smile:

Original post by Ayaz789

But you have to times by pi/5 , ive seen it in past papers

Check summer 2012, it is the same

Original post by FusionNetworks

I got e^1 * answer in part 1 because you could just take out th e^1 from the integral.

^^^
He's right because is was exponential, if it wasn't then times by pi/5 would've been correct but all you had do to was times part a by e^1

Original post by Salamon16

Check summer 2012, it is the same

my method was to just type in the integral :e^ 1/cos(x)^2 into my calculator with the boundaries pi/5 and 0

I cant remember what I did then but that was my method

We should all be fine then 😄 Fingers crossed

Original post by Ayaz789

But you have to times by pi/5 , ive seen it in past papers

No, u only time by pi/5, if you had to the find the integral of (something something + e^1) but you had to find the integral of (something something * e^1) so u can just pull e^1 out of the whole integral.
Something something indicates the equation we had to integrate in the first part, but I can't remember what we had to integrate exactly sorry!

What about the parametric differentiation q where you had to give the second derivative in terms of y?

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Original post by Ayaz789

So am i right?

No it's just times by e^1

Original post by Ayaz789

So am i right?

No

Original post by FusionNetworks

No, u only time by pi/5, if you had to the find the integral of (something something + e^1) but you had to find the integral of (something something * e^1) so u can just pull e^1 out of the whole integral.
Something something indicates the equation we had to integrate in the first part, but I can't remember what we had to integrate exactly sorry!

http://pastpapers.download.wjec.co.uk/s12-0975-01.pdf
I silll am quite sure im right :/

a and b values for transformations?

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