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1st Year University Mathematics Thread (1 Viewer)

Carrotsticks

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Hey all!

We have a 3U and 4U Maths Marathon, but I noticed that we don't have such a thing for University students!

I'll start with the basic calculations (just to ease everybody in) before throwing in some harder problems.

 

Amleops

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Shame this thread hasn't taken off yet. I'm doing Calculus and Linear Algebra at Summer School this year so I could do with some extra practice if we can start this thread up again :).

As for now, haven't really learnt a lot of the content yet, but from cursory readings I think I can do one of the questions:



And yes, one of my aims this Summer is to learn how to properly use LaTeX haha.
 

Carrotsticks

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Shame this thread hasn't taken off yet. I'm doing Calculus and Linear Algebra at Summer School this year so I could do with some extra practice if we can start this thread up again :).

As for now, haven't really learnt a lot of the content yet, but from cursory readings I think I can do one of the questions:





And yes, one of my aims this Summer is to learn how to properly use LaTeX haha.
Good luck with that! If you have any questions please feel free to ask in our Mathematics section, or perhaps in this thread.

Yep, your proof looks good =)

Also, learning TeX is great, can be quite slow to begin with but it'll become second nature in no time.
 

Carrotsticks

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This one is just simple straight forward partial derivatives.

Try this:

If is differentiable, find the limit

Frank, this thread is to encourage people to answer ie: start off with the 'straight forward' questions, and then move on to the more difficult ones.

We're not here to flex our Maths muscles.
 

HeroicPandas

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there is just a small mistake on the fourth line of your working out haha (should be partial y)
 

RenegadeMx

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let x be a real number. prove x=floor(x/2)+ceiling(x/2) iff x is an integer
 

HeroicPandas

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let x be a real number. prove x=floor(x/2)+ceiling(x/2) iff x is an integer
IF x is an integer, then it can be odd or even

Suppose x is odd, then there exists an integer M such that x = 2M + 1











Suppose x is even, then there exists an integer M such that x = 2M

So


ONLY IF, not sure atm, thinking about the contrapositive

I have this:

Let x be p/q such that p and q are integers and q is not 0 or 1

LHS = x = p/q

RHS = floor(x/2) + ceil(x/2)
= floor(p/2q) + ceil(p/2q)
 
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sirable1

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Note: Sorry, I'm not sure how to use Latex at the moment!

Suppose that two vectors A and B are the following A(0,1,-1), B(2,1,M)

Find the value of 'M' if the angle between A and B is Pi/4

I know the formula for computing angles between vectors is (Cos(theta) = a . b/|a||b|) but I am unsure how to compute the inverse (like finding the value of 'M' here).

This appeared in the one of the past papers for MATH1131, S1 2014 and was quite clueless how to approach this question. Any thoughts?
 
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nightweaver066

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Note: Sorry, I'm not sure how to use Latex at the moment!

Suppose that two vectors A and B are the following A(0,1,-1), B(2,1,M)

Find the value of 'M' if the angle between A and B is Pi/4

I know the angle formula for computing angles between vectors is (Cos(theta) = a . b/|a||b|) but I am unsure how to compute the inverse (like finding the value of 'M' here).

This appeared in the one of the past papers for MATH1131, S1 2014 and was quite clueless how to approach this question. Any thoughts?
Lets hope this is right after having not touched first year maths for so long haha











 

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