The Art and Craft of Problem Solving

182 CHAPTER 5 ALGEBRA

We conclude that

(^10000 1)
2 VlOOO I - 2 <
n�^1 vn
<^2 VlOOOO.
This tells us that l A J is either 198 or 19 9. We can easily refine this estimate, because
the original trick of bracketing 1/ vn between 2 (v'n+T -vn) and 2 ( vn -vn=t)

was pretty crude for small values of n. For example, when n = 1, we ended up using

the "estimate" that

2(v'2-I) < (^1) < 2 V1.
The lower limit is not too bad, but the upper limit is a silly overestimate by exactly 1.

So let's not use it! Start the summation at n = 2 and write

(^10000 1)
A=I+ � tv;.

n= 2 yn

Now we estimate

The lower limit in the above expression is a little bit larger than 19 7, while the upper limit is 19 8. Thus we conclude that A is between 198 and 19 9, so l A J = 19 8. •

The Cauchy-Schwarz Inequality

Letal ,a 2 , ... ,an and bl ,b 2 , ... ,bn be sequences of real numbers. The Cauchy-Schwarz

inequality states that

with equality holding if and only if aJ/bl = az/b 2 = ... = an/bn. If n = 1, this in

equality reduces to two-variable AM-GM. If n = 3, the inequality (using friendlier

variables) is

(7)

for all real a, b, c, x, y, z.

5.5.20 Prove (7) by multiplying out efficiently and looking at cross-terms and using

two-variable AM-GM whenever possible. This method generalizes to any value of n.

Another way to prove (7) uses the simple but important tool that

A sum of squares of real numbers is non-negative, and equal to zero if

and only if all the numbers are zero.

The Art and Craft of Problem Solving

was pretty crude for small values of n. For example, when n = 1, we ended up using

So let's not use it! Start the summation at n = 2 and write

n= 2 yn

Letal ,a 2 , ... ,an and bl ,b 2 , ... ,bn be sequences of real numbers. The Cauchy-Schwarz

with equality holding if and only if aJ/bl = az/b 2 = ... = an/bn. If n = 1, this in

equality reduces to two-variable AM-GM. If n = 3, the inequality (using friendlier

for all real a, b, c, x, y, z.

two-variable AM-GM whenever possible. This method generalizes to any value of n.

A sum of squares of real numbers is non-negative, and equal to zero if

and only if all the numbers are zero.

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The Art and Craft of Problem Solving

was pretty crude for small values of n. For example, when n = 1, we ended up using

So let's not use it! Start the summation at n = 2 and write

n= 2 yn

Letal ,a 2 , ... ,an and bl ,b 2 , ... ,bn be sequences of real numbers. The Cauchy-Schwarz

with equality holding if and only if aJ/bl = az/b 2 = ... = an/bn. If n = 1, this in­

equality reduces to two-variable AM-GM. If n = 3, the inequality (using friendlier

for all real a, b, c, x, y, z.

two-variable AM-GM whenever possible. This method generalizes to any value of n.

A sum of squares of real numbers is non-negative, and equal to zero if

and only if all the numbers are zero.

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Documentation

Resources

with equality holding if and only if aJ/bl = az/b 2 = ... = an/bn. If n = 1, this in