Algebra: Difference between revisions
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** <math>x + 0 = 5</math> | ** <math>x + 0 = 5</math> | ||
**<math>x = 5</math> | **<math>x = 5</math> | ||
=== Operation === | |||
= a process to change a value | |||
* addition, subtraction, multiplication and division are the fundamental "operations" of math | |||
* | |||
===Property=== | ===Property=== | ||
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*equality = that both sides of the equation (equal sign) have the same value | *equality = that both sides of the equation (equal sign) have the same value | ||
==How to solve an equation== | === Variable === | ||
* an unknown value represented, usually represented by the letter <math>x </math> | |||
==How to solve an equation with a single variable== | |||
===Using Addition Property=== | ===Using Addition Property=== | ||
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</math> | </math> | ||
|} | |} | ||
{| class="wikitable" | |||
=== Using Multiplication Property === | |||
{| class="wikitable" style="text-align: center;" | |||
|+Properties of Equality | |+Properties of Equality | ||
! colspan="5" |Multiplication Property | ! colspan="5" |Multiplication Property | ||
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</math> ) | </math> ) | ||
|<math>\frac {\cancel6\times x} \cancel 6 = { | |||
(note: <math>\frac {24} 6 </math> is the same as <math>24\div 6 </math>) | |||
|<math>\frac {\cancel6\times x} \cancel 6 = \frac {24} 6 </math> | |||
|- | |- | ||
|Solution | |Solution | ||
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</math> | </math> | ||
|} | |} | ||
=== Cross-multiplying === | |||
* use cross-multiplication to solve for <math>x </math> when <math>x </math> is a denominator (bottom of a fraction) | |||
* see for numerators and denominators | |||
==== How to solve for <math>x </math> when <math>x </math> is a denominator: "Cross-multiplication" ==== | |||
{| style="text-align: center;" | |||
|+Using Cross-Multiplication | |||
!<math>\frac 6 x = 8 </math> | |||
!is the same as | |||
!<math>\frac 6 x = \frac 8 1 </math> | |||
|- | |||
| colspan="3" |using cross-multiplication, we can move the variable <math>x </math> to the top of the fraction (numerator) | |||
|- | |||
!<math>\frac 6 x = \frac 8 1 </math> | |||
!is the same as | |||
(using cross-multiplication) | |||
|<math>8x= 6 \times 1 </math> | |||
|- | |||
| | |||
|now we can solve for <math>x</math> | |||
| | |||
|- | |||
|<math>8x= 6 \times 1 </math> | |||
|<math>8x= 16 </math><math>\frac {8\times x} 8 = \frac {16} 8 </math><math>x = \frac {16} 8 | |||
</math> | |||
|<math>x=2 | |||
</math> | |||
|} | |||
== How to solve an equation with two of the same variables == | |||
* when an equation has two of the same variables, we isolate the variable by combining its instances | |||
* ex. | |||
** <math>2x + 5x = 35</math> | |||
** the values <math>2x | |||
</math> and <math>5x | |||
</math> may be "distributed" in order to make a single instance of <math>x | |||
</math> and thereby allowing for it to be isolated | |||
=== Distributive property === | |||
= the idea that multiplication can be "distributed" through addition | |||
* multiplication is addition by a certain factor (number of times) | |||
* ex. when we multiply <math>5 \times 5</math>, we are adding 5 five times: <math>5\times 5 = 5+5+5+5+5 | |||
</math> | |||
** that is the same as adding <math>(2+3)</math> five times | |||
** so we can express <math>(2+3)</math> times 5 as either | |||
*** <math>5 \times (2+3) | |||
</math> or | |||
*** <math>5 \times (5) | |||
</math> or | |||
*** <math>(5\times 2) + (5 \times 3) | |||
</math> | |||
**** they all equal 25 | |||
* with variables, we use the process: | |||
** <math>2x + 5x</math> = | |||
** <math>x \times (2+5) | |||
</math> = | |||
** <math>x \times 7 | |||
</math> = 7<math>x | |||
</math> | |||
[[Category:Math]] | [[Category:Math]] |
Latest revision as of 23:24, 29 February 2024
Solving equations[edit | edit source]
Definitions[edit | edit source]
Expression[edit | edit source]
= any form of showing a mathematical value
- ex. the number 2 may be "expressed" as either "2" or "1+1"
- more complex "expressions" involve variables, such as "2y -5 = 10"
- here, the value (expression) "10" can also be "expressed" as "2y - 5"
Equation[edit | edit source]
= a statement that uses an equal sign (=)
- which means that the expressions on both side of the equal sign have the same value
Inverse Operation[edit | edit source]
= a method for isolating variables by adding or multiplying a value to both sides of an equation
- the "inverse operation" reduces the value of the property on the side of the variable to 1 or 0
- that way the variable becomes "isolated" on one side of the equation
- ex.:
- the "inverse operation" adds -3 to both sides of the equation:
- which leaves us with
Operation[edit | edit source]
= a process to change a value
- addition, subtraction, multiplication and division are the fundamental "operations" of math
Property[edit | edit source]
- = the rule that is applied to numbers in an equation
- the property applied must be the same for both sides of the equation!
- properties include
- Addition property (or subtraction)
- Multiplication property (or division)
Isolating the variable[edit | edit source]
- Equations are solved by "isolating the variable"
- which means "expressing" the unknown value by itself on one side of an equation
- ex. to solve, "4 + x = 6" , we want to "isolate" x, so that we have "x = ___"
- which means "expressing" the unknown value by itself on one side of an equation
Properties of Equality[edit | edit source]
- property = a rule
- equality = that both sides of the equation (equal sign) have the same value
Variable[edit | edit source]
- an unknown value represented, usually represented by the letter
How to solve an equation with a single variable[edit | edit source]
Using Addition Property[edit | edit source]
- when solving for when is added or subtracted to/from another number
- we "isolate " by using the "Inverse Operation" to remove the number from the side with the variable,
- note that
- addition is adding a positive number:
- where means "positive 3"
- subtraction is adding a negative number:
- where means "negative 3"
- addition is adding a positive number:
- examples:
Addition Property | ||||
---|---|---|---|---|
Equation | ||||
Inverse Operation | add to both sides
(i.e. subtract 4) |
add to both sides
(i.e. add 3) |
||
Solution | ||||
- another way to look at the Inverse Operation, using the same equations is:
Addition Property | ||||
---|---|---|---|---|
Equation | ||||
Inverse Operation | add to both sides
(i.e. subtract 4) |
add to both sides
(i.e. add 3) |
||
simplify | simplify | |||
Solution |
Using Multiplication Property[edit | edit source]
Multiplication Property | ||||
---|---|---|---|---|
Equation | ||||
Inverse Operation | multiply both sides by 6
(isolates x by making the expression which is equal to ) |
divide both sides by 6
(isolate by making the expression which is equal to ) |
||
cancel
(because ) |
cancel
(because ) (note: is the same as ) |
|||
Solution |
Cross-multiplying[edit | edit source]
- use cross-multiplication to solve for when is a denominator (bottom of a fraction)
- see for numerators and denominators
How to solve for when is a denominator: "Cross-multiplication"[edit | edit source]
is the same as | ||
---|---|---|
using cross-multiplication, we can move the variable to the top of the fraction (numerator) | ||
is the same as
(using cross-multiplication) |
||
now we can solve for | ||
How to solve an equation with two of the same variables[edit | edit source]
- when an equation has two of the same variables, we isolate the variable by combining its instances
- ex.
- the values and may be "distributed" in order to make a single instance of and thereby allowing for it to be isolated
Distributive property[edit | edit source]
= the idea that multiplication can be "distributed" through addition
- multiplication is addition by a certain factor (number of times)
- ex. when we multiply , we are adding 5 five times:
- that is the same as adding five times
- so we can express times 5 as either
- or
- or
-
- they all equal 25
- with variables, we use the process:
- =
- =
- = 7