Note
Studied by 1125 peopleChapter 1: Equations and Inequalities
1-1: Expressions and Formulas
variable: symbols, usually letters, that represent unknowns (i.e. x, y, or z)
algebraic expression: an expression that contains at least one variable (i.e. x + 3)
order of operations: used to solve expressions and equations, used to solve for variables
Step 1: evaluate expressions inside grouping symbols
Step 2: evaluate all powers
Step 3: multiply and/or divide from left to right
Step 4: add and/or subtract from left to right
monomial: an algebraic expression that is composed of a number, a variable, or the product of a number and a variable (i.e. 5b, -x, 6xy)
- these cannot contain variables in the denominator, variables with negative exponents, or variables inside radicals
constants: monomials that contain no variables (i.e. 23, 5, -2)
coefficient: the numerical part of a monomial with a variable (i.e. 5x, 5 is the coefficient)
degree: the sum of the exponents of the variables in a monomial (i.e. x^2y^2, the degree is 4)
- the degree of a constant is 0
power: an expression with the form x^n - also used to refer to the exponent itself
polynomial: a monomial OR a sum of monomials
terms: the monomials that make up a polynomial (i.e. 3x^2 + 5x, the terms are 3x^2 and 5x)
like terms: terms that can be combined (i.e. 2x + 4x, these are like terms because they can sum to 6x)
trinomial: three unlike terms (i.e. x^2 + 3x - 1, none of the terms can be combined)
binomial: two unlike terms (i.e. x + y)
formula: a mathematical sentence that expresses the relationship between certain quantities - can be used to solve for certain values, if others are given
- formula for the area (A) of a trapezoid: A = 1/2 h(b1 + b2), where h is the height, and b1 and b2 are the lengths of the bases
- if three out of four of these variables are given, one is able to use the formula to find the remaining variable
1-2: Properties of Real Numbers
real numbers: numbers that correspond to exactly one point on the number line, every point represents
rational numbers: a number that can be expressed as a ratio, where the numerator and denominator are integers, and the denominator is NOT zero
- the decimal form is either a repeating, or terminal
irrational numbers: a number that is NOT rational, the decimal form doesn’t terminate NOR repeat
Properties of Real Numbers
For any real numbers a, b, and c:
| Property | Addition | Multiplication |
|---|---|---|
| Commutative | a + b = b + a | ab = ba |
| Associative | (a + b) + c = a + (b + c) | ab • c = a • bc |
| Identity | a + 0 = a = 0 + a | a • 1 = 1 • a |
| Inverse | a + (-a) = 0 = (-a) + a | if a ≠ 0, then a • (1/a) = 1 = (1/a) • a |
Distributive: a(b + c) = ab + ac AND (b + c)a = ba + ca
Simplifying Expressions
2(5m + n) + 3(2m - 4n)
= 2(5m) + 2(n) + 3(2m) - 3(4n)
= 10m + 2n + 6m - 12n
= 10 + 6m + 2n - 12n
= (10 + 6)m + (2 - 12)n
= 16m - 10n
1-3: Solving Equations
open sentence: a mathematical sentence with one or more variables
equation: a mathematical sentence that sets two expressions equal to each other
solution: whenever a variable is replaced by a number
Properties of Equality
| Property | Symbols | Examples |
|---|---|---|
| Reflexive | for any real number a, a = a | -7 + n = -7 + n |
| Symmetric | for all real numbers a and b, if a = b, then b = a | if 3 = 5x - 6, then 5x - 6 = 3 |
| Transitive | for all real numbers a, b, and c, if a = b and b = c, then a = c | if 2x + 1 = 7 and 7 = 5x - 8, then 2x + 1 = 5x - 8 |
| Substitution | if a = b, then a may be replaced by b, and b may be replaced by a | if (4 + 5)m = 18, then 9m = 18 |
Addition and Subtraction
symbols: for any real numbers a, b, and c, if a = b, then a + c = b + c, AND a - c = b - c
examples:
- if x - 4 = 5, then x - 4 + 4 = 5 + 4
- if n + 3 = -11, then n + 3 - 3 = -11 - 3
Multiplication and Division
symbols: for any real numbers a, b, and c, if a = b, then a • c = b • c, AND if c ≠ 0, a/c = b/c
examples:
- if m/4 = 6, then 4 • m/4 = 4 • 6
- if -3y = 6, then -3y/-3 = 6/-3
1-4: Solving Absolute Value Equations
absolute value: the distance of a number from 0 on a number line, represented by |x|
- for any real number a, if a is positive or zero, the absolute value of a is a; if a is negative, the absolute value of a is the opposite of a
empty set: solution set of an equation with no solution set
1-5: Solving Inequalities
Trichotomy Property: for any two real numbers, a and b, exactly ONE of the following statements is true:
- a < b
- a = b
- a > b
set-builder notation: a way to express a solution set of an inequality
- { x | x > 9} → the set of all numbers x such that x is greater than 9
Properties of Inequality
These properties also hold true for ≤, ≥, and ≠
Addition Property
for any real numbers a, b, and c:
- if a > b, then a + c > b + c
- if a < b, then a + c < b + c
Subtraction Property
for any real numbers a, b, and c:
- if a > b, then a - c > b - c
- if a < b, then a - c < b - c
Multiplication Property
for any real numbers a, b, and c, where
c is positive:
- if a > b, then ac > bc
- if a < b, then ac < bc
c is negative:
- if a > b, then ac < bc
- if a < b, then ac > bc
Division Property
for any real numbers a, b, and c, where
c is positive:
- if a > b, then a/c > b/c
- if a < b, then a/c < b/c
c is negative:
- if a > b, then a/c < b/c
- if a < b, then a/c > b/c
1-6: Solving Compound and Absolute Value Inequalities
compound inequality: two inequalities joined by the word and or the word or
intersection: the set of elements common to two sets, the graph of a compound inequality containing and
union: the set of elements belonging to one or more of a group of sets, the graph of a compound inequality containing or
Absolute Value Inequalities
for all real numbers a and b, b > 0, the following statements are true
- if |a| < b, then -b < a < b
- if |a| > b, a > b OR a < -b
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