Solve Algebra Challenge: $(x+1)(y+1)/(x+y)+\cdots

In summary, the purpose of this algebra challenge is to test understanding of factoring and simplifying rational expressions. The first step is to distribute the numerator and simplify any like terms. There is no specific order for simplifying, but it is easier to do so separately for the numerator and denominator. Further simplification can be done by factoring and cancelling out common factors. An example of solving this challenge is provided, resulting in a simplified expression of $y+2$.
  • #1
anemone
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Given that $x,\,y$ and $z$ are non-zero real numbers such that $x + y + z = 3$ and $xy + yz + zx = −1$.

Evaluate \(\displaystyle \frac{(x + 1)(y + 1)}{x + y}+ \frac{(y + 1)(z + 1)}{y + z}+ \frac{(z + 1)(x + 1)}{z + x}\).
 
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  • #2
Hi anemone,

Here is my solution.

The expression reduces to zero. Using the cyclic summation notation $\sum_\sigma$, we write the expression as

$$\sum_\sigma \frac{(x+1)(y+1)}{x + y}.$$

Note $(x + 1)(y + 1) = (x + y) + (xy + 1) = (x + y) - (yz + zx) = (x + y)(1 - z)$. Thus

$$\sum_\sigma \frac{(x + 1)(y + 1)}{x + y} = \sum_\sigma (1 - z) = 3 - \sum_\sigma z = 0.$$
 
  • #3
anemone said:
Given that $x,\,y$ and $z$ are non-zero real numbers such that $x + y + z = 3$ and $xy + yz + zx = −1$.

Evaluate \(\displaystyle \frac{(x + 1)(y + 1)}{x + y}+ \frac{(y + 1)(z + 1)}{y + z}+ \frac{(z + 1)(x + 1)}{z + x}\).

$$\frac{(x+1)(y+1)}{x+y}=\frac{xy+x+y+1}{x+y}=\frac{-1-z(3-z)+3-z+1}{3-z}=1-z$$

Similarly for the other two summands:

$$1-z+1-y+1-x=3-3=0$$
 
  • #4
Very well done to both of you! (Cool)
 

Related to Solve Algebra Challenge: $(x+1)(y+1)/(x+y)+\cdots

1. What is the purpose of this algebra challenge?

The purpose of this algebra challenge is to test your understanding of algebraic expressions and operations, specifically with factoring and simplifying rational expressions.

2. What is the first step in solving this expression?

The first step is to distribute the numerator and simplify any like terms. In this case, we would distribute the $(x+1)$ to get $x+y+1$ in the numerator.

3. Is there a specific order in which we need to simplify the expression?

No, there is no specific order. However, it is usually easier to simplify the numerator and denominator separately before combining them.

4. How can we simplify the expression further?

We can further simplify the expression by factoring out any common factors in the numerator and denominator, and then cancelling out any common factors. In this case, we can factor out a $(x+y)$ and cancel it out, leaving us with a simplified expression of $1$.

5. Can you provide an example of how to solve this challenge?

Example: Solve $(x+1)(y+1)/(x+y)+\cdots$
Distribute the numerator: $(x+1)(y+1) = xy+x+y+1$
Simplify the numerator: $xy+x+y+1 = x+y+xy+1$
Factor out a $(x+y)$: $x+y+xy+1 = (x+y)(1+y)+1$
Cancel out the $(x+y)$: $(x+y)(1+y)+1 = 1+y+1 = y+2$
Therefore, the simplified expression is $y+2$.

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