Fractional Exponents - Math Is Fun

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Math is Fun Advanced Fractional Exponents

Also called "Radicals" or "Rational Exponents"

Whole Number Exponents

First, let us look at whole number exponents:

8 to the Power 2

The exponent of a number says how many times to use the number in a multiplication.

In this example: 82 = 8 × 8 = 64

In words: 82 could be called "8 to the second power", "8 to the power 2" or simply "8 squared"

Another example: 53 = 5 × 5 × 5 = 125

Fractional Exponents

But what if the exponent is a fraction?

An exponent of 12 is a square root

An exponent of 13 is a cube root

An exponent of 14 is a 4th root

And so on!

 fractional exponents: 4^(1/2) = square root of 4, and so on

Why?

Let's see why in an example.

First, the Laws of Exponents tell us how to handle exponents when we multiply:

Example: x2x3 = (xx)(xxx) = xxxxx = x5

Which shows that x2x3 = x(2+3) = x5

So let us try that with fractional exponents:

Example: What is 9½ × 9½ ?

9½ × 9½= 9(½+½) = 9(1) = 9

So times itself gives 9.

Now, what do we call a number that, when multiplied by itself, gives another number? The square root of that other number!

See:

√9 × √9 = 9

And:

9½ × 9½ = 9

So is the same as √9

Try Another Fraction

Let us try that again, but with an exponent of one-quarter (1/4):

Example:

16¼ × 16¼ × 16¼ × 16¼= 16(¼+¼+¼+¼) = 16(1) = 16

So 16¼ used 4 times in a multiplication gives 16,

and so 16¼ is a 4th root of 16

General Rule

It worked for ½, it worked with ¼, in fact it works generally:

x1/n = The n-th Root of x

In other words:

A fractional exponent like 1/n means to take the n-th root:

x1/n = nx

Example: What is 271/3 ?

Answer: 271/3 = 327 = 3

What About More Complicated Fractions?

What about a fractional exponent like 43/2 ?

That is really saying to do a cube (3) and a square root (1/2), in any order.

Let me explain.

A fraction (like m/n) can be broken into two parts:

  • a whole number part (m) , and
  • a fraction (1/n) part

So, because m/n = m × (1/n) we can do this:

xm/n = x(m × 1/n) = (xm)1/n = nxm

The order does not matter, so it also works for m/n = (1/n) × m:

xm/n = x(1/n × m) = (x1/n)m = (nx )m

And we get this:

A fractional exponent like m/n means: Do the m-th power, then take the n-th root: xm/n = nxm or Take the n-th root, then do the m-th power: xm/n = (nx )m

Your choice!

Some examples:

Example: What is 43/2 ?

43/2 = 43×(1/2) = √(43) = √(4×4×4) = √(64) = 8

or

43/2 = 4(1/2)×3 = (√4)3 = (2)3 = 8

Either way gets the same result.

Example: What is 274/3 ?

274/3 = 274×(1/3) = 3274 = 3531441 = 81

or

274/3 = 27(1/3)×4 = (327 )4 = (3)4 = 81

It was certainly easier the 2nd way!

Now ... Play With The Graph!

See how smoothly the curve changes when you play with the fractions in this animation, this shows you that this idea of fractional exponents fits together nicely:

images/graph-exponent.js

Things to try:

  • Start with m=1 and n=1, then slowly increase n so that you can see 1/2, 1/3 and 1/4
  • Then try m=2 and slide n up and down to see fractions like 2/3 and so on
  • Now try to make the exponent −1
  • Last try increasing m, then reducing n, then reducing m, then increasing n: the curve should go around and around
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