Difference between revisions of "Proportion"

(Inverse Proportion)
 
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Two numbers are said to be in '''proportion''' to each other if some numeric relationship exists between them. There are several types of proportions, each defined by a separate class of function.  
 
Two numbers are said to be in '''proportion''' to each other if some numeric relationship exists between them. There are several types of proportions, each defined by a separate class of function.  
  
 
==Direct Proportion==
 
==Direct Proportion==
Direct proportions is a proportion where one is a multiple of the other. Direct proportion between two numbers '''x''' and '''y''' can be expressed as: <br />
+
Direct proportion is a proportion in which one number is a multiple of the other. Direct proportion between two numbers <math>x</math> and <math>y</math> can be expressed as:
<math>y=kx</math><br />
+
 
where '''k''' is some [[real number]]. <br /> The graph of a direct proportion is always linear.
+
:<math>y=kx</math>
 +
 
 +
where <math>k</math> is some [[real number]].  
 +
 
 +
The graph of a direct proportion is always [[line]]ar.
 +
 
 +
Often, this will be written as <math>y \propto x</math>.
  
 
==Inverse Proportion==
 
==Inverse Proportion==
Inverse proportion is a proportion in which as one number's absolute value increases, the other's decreases in a directly proportional amount. It can be expressed as:<br />
+
Inverse proportion is a proportion in which as one number's absolute value increases, the other's decreases in a directly proportional amount. It can be expressed as:
<math>xy=k</math><br />
+
 
where k is some real number that does not equal zero. <br />
+
:<math>xy=k</math>
 +
 
 +
==Exponential Proportion==
 +
A proportion in which one number is equal to a constant raised to the power of the other, or the [[logarithm]] of the other, is called an exponential proportion. It can be expressed as either:
 +
 
 +
:<math>y = k^x\,</math> or
 +
:<math>y = \log_k (x).\,</math>
 +
 
 +
for some real number <math>k</math>, where <math>k</math> is not zero or one.
 +
 
 +
==Problems==
 +
===Introductory===
 +
*Suppose <math>\frac{1}{20}</math> is either <math>x</math> or <math>y</math> in the following system:
 +
<cmath>\begin{cases}
 +
xy=\frac{1}{k}\\
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x=ky
 +
\end{cases} </cmath>
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Find the possible values of <math>k</math>. ([[proportion/Introductory|Source]])
 +
 
 +
===Intermediate===
 +
*<math>x</math> is directly proportional to the sum of the squares of <math>y</math> and <math>z</math> and inversely proportional to <math>y</math> and the square of <math>z</math>. If <math>x = 8</math> when <math>y = \frac{1}{2}</math> and <math>z = \frac{\sqrt {3}}{2}</math>, find <math>y</math> when <math>x = 1</math> and <math>z = 6</math>, what is <math>y</math>? ([[Proportion/Intermediate|Source]]) (Thanks to Bicameral of the AoPS forum for this one)
 +
 
 +
===Olympiad===
 +
 
 +
==See Also==
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*[[Ratio]]
 +
*[[Fraction]]
 +
 
 +
[[Category:Algebra]]
 +
[[Category:Definition]]

Latest revision as of 15:34, 1 June 2022

Two numbers are said to be in proportion to each other if some numeric relationship exists between them. There are several types of proportions, each defined by a separate class of function.

Direct Proportion

Direct proportion is a proportion in which one number is a multiple of the other. Direct proportion between two numbers $x$ and $y$ can be expressed as:

$y=kx$

where $k$ is some real number.

The graph of a direct proportion is always linear.

Often, this will be written as $y \propto x$.

Inverse Proportion

Inverse proportion is a proportion in which as one number's absolute value increases, the other's decreases in a directly proportional amount. It can be expressed as:

$xy=k$

Exponential Proportion

A proportion in which one number is equal to a constant raised to the power of the other, or the logarithm of the other, is called an exponential proportion. It can be expressed as either:

$y = k^x\,$ or
$y = \log_k (x).\,$

for some real number $k$, where $k$ is not zero or one.

Problems

Introductory

  • Suppose $\frac{1}{20}$ is either $x$ or $y$ in the following system:

\[\begin{cases} xy=\frac{1}{k}\\ x=ky \end{cases}\] Find the possible values of $k$. (Source)

Intermediate

  • $x$ is directly proportional to the sum of the squares of $y$ and $z$ and inversely proportional to $y$ and the square of $z$. If $x = 8$ when $y = \frac{1}{2}$ and $z = \frac{\sqrt {3}}{2}$, find $y$ when $x = 1$ and $z = 6$, what is $y$? (Source) (Thanks to Bicameral of the AoPS forum for this one)

Olympiad

See Also