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Past Paper Mathematics 3U questions (1 Viewer)

frankfurt

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Hi guys,

I was going through some past papers and got stuck with these questions. Could you please help me out?

I would really like the working out for these questions since the solutions didn't have any.

1601821359848.png
The answer for this one is A.

1601821424004.png
The answer for this one is D.

thanks in advance! :)
 

erucibon

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for q4, let the LHS = Rsin(theta + alpha). You will find 5sin(theta + tan^-1(4/3) = 5, so sin(theta + tan^-1(4/3) = 1. The new bounds are tan^-1(4/3) < x < 2pi + tan^-1(4/3). There is only one solution within these bounds (in the first quadrant).
 

Unknown Scholar

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I could only do q10 with a brute force approach/ I'd never get this and there's probably a better way I can't think of right now.

So:
different permutations.
Now, let's consider all the square number that are available: 1, 4, 9, 25, 36, 64, 81, 100, 121, 144.
If we break down each square number into factors:
  • [+1]
  • [+3] - Three different ways to make this.
  • [+0] - We've already counted this.
  • [+3] - Three different ways for each different combination.
  • [+0] - We've already counted this.
  • [+6] - Three different ways for each different combination.
  • - Not possible
  • [+1]
  • - Not enough places to make anything.
  • [+3] - Three different ways to make this.
  • - Not possible
  • [+3] - Three different ways for each different combination.
Total:
Total number of permutations:

Since this is higher than all other options, then there must be a few we missed later with higher numbers.
Hence, D
 
Last edited:

frankfurt

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for q4, let the LHS = Rsin(theta + alpha). You will find 5sin(theta + tan^-1(4/3) = 5, so sin(theta + tan^-1(4/3) = 1. The new bounds are tan^-1(4/3) < x < 2pi + tan^-1(4/3). There is only one solution within these bounds (in the first quadrant).
right i see, thanks for helping me out!!
 

TamzidZ

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I swear that paper has solutions explaining the answers
 

B1andB2

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For Q4 you could also use the t-formula (I’m pretty sure it works) and so do the normal t- substitutions from the formula sheet, get a quadratic and you’ll end up with tan(theta/2)=1/2

solving for theta, you’ll end up finding that only one answer fits the domain.
 

Trebla

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For the second question, start with the scenario where the product of two values in the toss is already a perfect square. This should cover the majority of the cases.

When the product of the two values is already a perfect square, then the only way to get the final product to be a perfect square is for the third value to also be perfect square (i.e. 1 or 4). This means matching the pairs (1x1), (2x2), (3x3), (4x4), (5x5) and (6x6) with 1 or 4.

When 1 is matched with (1x1) there is only 1 way of doing this, but for the other pairs there are 3 ways of doing this, so there 1+3x5 arrangements. Similarly apply that to matching the 4 and you get a total of 2x(1+3x5) arrangements.

However, note that since 4 and 6 are not prime numbers you can find other ways to generate the perfect square by breaking them down into their prime factors. Turns out we've counted most of them already, except for 6=2x3. There are 6 ways to arrange the (2,3,6) so add that to your answer and you get 38 possibilities.
 

frankfurt

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I could only do q10 with a brute force approach/ I'd never get this and there's probably a better way I can't think of right now.

So:
different permutations.
Now, let's consider all the square number that are available: 1, 4, 9, 25, 36, 64, 81, 100, 121, 144.
If we break down each square number into factors:
  • [+1]
  • [+3] - Three different ways to make this.
  • [+0] - We've already counted this.
  • [+3] - Three different ways for each different combination.
  • [+0] - We've already counted this.
  • [+6] - Three different ways for each different combination.
  • - Not possible
  • [+1]
  • - Not enough places to make anything.
  • [+3] - Three different ways to make this.
  • - Not possible
  • [+3] - Three different ways for each different combination.
Total:
Total number of permutations:

Since this is higher than all other options, then there must be a few we missed later with higher numbers.
Hence, D
thanks!
 

CM_Tutor

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The second question, about the product of the value on three dice being a perfect square, I think comes from the Independent Schools paper, with the options given in the source as:



I am aware of at least one other school that used the question with this set of choices, which I note do not include the correct answer. I have found one school (possibly the source of the OP's question as the four options offered are the same) that changed the selection to include the correct answer... but didn't keep the original answer as a distractor.

Definitely an embarrassing error for whoever wrote the original!
 

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