查看: 763|回复: 8

请版主关帖谢谢

48 主题	1 好友	1907 积分

白银长老

Rank: 9 Rank: 9 Rank: 9 Rank: 9 Rank: 9 Rank: 9 Rank: 9 Rank: 9 Rank: 9

发消息

电梯直达

1^#

发表于 2013-3-16 05:13 PM |只看该作者 |倒序浏览

本帖最后由大圆于 2014-6-20 07:02 AM 编辑

请版主关帖，谢谢

收藏0

使用道具举报

谦.之语

250 主题	0 好友	4161 积分

一流名嘴

Rank: 12

发消息

2^#

发表于 2013-3-16 05:33 PM |只看该作者

form 3 有这课？不要吓我，不是form 4 的咩

使用道具举报

ws0146

8 主题	2 好友	333 积分

超级会员

Rank: 5 Rank: 5 Rank: 5 Rank: 5 Rank: 5

发消息

3^#

发表于 2013-3-17 08:11 AM |只看该作者

33 ('3 cubed' or '3 to the power of 3') and 52 ('5 squared' or 5 'to the power' of 2) are example of numbers in index form.
33 = 3×3×3
21 = 2
22 = 2×2
23 = 2×2×2
etc.
The 2 and 3 are known as indices. Indices are useful (for example they allow us to represent numbers in standard form) and have a number of properties.

Laws of Indices

There are several rules for dividing and multiplying numbers written in index form. These properties only hold, however, when the same number is being raised to a certain power. For example, we cannot easily work out what 23×52 is, whereas we can simplify 32×33 .

Multiplication
When we multiply together index numbers, we add the powers. So:
ya × yb = ya+b

Examples
x2 × x3 = x5
54 × 5-2 = 52 (because 4 + (-2) = 2)
But there is no easy way of calculating 54 × 33 because 5 and 3 aren't the same number!

Division
When dividing index numbers, we subtract the power of the number we are dividing by from the power of the number being divided. So:
ya ÷ yb = ya - b

Examples
x2/x3 = x-1
72 ÷ 7-5 = 77

Brackets
(ya)b = ya×b

Examples
(x2)3 = x6
(53)2 = 56

Further Index Properties

Anything to the power 0 is equal to 1. So 30 = 1, 8240 = 1 and x0 = 1. NOTE!! a negative number to the power 0 is equal to -1. So -8240 = -1

Negative Indices
If you have a number raised to a negative power, this is equal to 1 divided by the number raised to the power made positive. In other words:
n-a = 1/na.

Examples
n-1 = 1/n.
3-2 = 1/32 = 1/9
(½)-3 = 23 = 8

Fractional Indices
A fractional power means that you have to take a root of the number. For example, 4½ means take the square root of 4 = 2. Similarly, x1/3 means take the cube root of x.

We can use the rule (ya)b = ya×b to simplify complicated index expressions.

Example
(1/8)-1/3; = [(1/8)-1]1/3 = [8]1/3 = 2

Inverse

The inverse of something has the opposite effect of that thing. Suppose you multiply something by 2. Clearly the "opposite effect" is to divide by 2.

Similarly, if you raise a number x by a power b, the inverse of this would be to raise it by the power of 1/b. This is because (xb)1/b = x1. So if we raise to the power of b and then to the power of 1/b, we end up where we started. So raising to the power of 1/b must 'undo' what we did by raising to the power of b.

For example, the inverse of cubing something is to take the cube root. If we do 23, we get 8. If we then cube root this, we get 81/3 = 2.

Reciprocals

The "reciprocal" of something means 1 over that something. So the reciprocal of y is 1/y = y-1 . The important thing about reciprocals is that if you multiply a number together with its recipricol, you get 1. So 1/y × y = 1. The reciprocal of 1/2 is 2 because ½ × 2 = 1.
Every number has a reciprocal except zero. Zero doesn't have a reciprocal because you are not allowed to divide by zero, so we can't work out 1/0.

y-1 is sometimes pronounced "y inverse", because multiplying by 1/y is the inverse (opposite) of multiplying by y.