📈College Algebra Unit 2 – Equations and Inequalities

Equations and inequalities form the foundation of algebraic problem-solving. These mathematical tools allow us to represent relationships between quantities and find solutions to various real-world scenarios. Understanding how to manipulate and solve equations and inequalities is crucial for success in higher-level math. This unit covers linear and quadratic equations, systems of equations, and inequalities. We'll explore graphing techniques, word problems, and common pitfalls to avoid. By mastering these concepts, you'll develop essential skills for analyzing and solving complex mathematical problems in future studies and everyday life.

Study Guides for Unit 2

2.1

The Rectangular Coordinate Systems and Graphs

3 min read

2.2

Linear Equations in One Variable

4 min read

2.3

Models and Applications

3 min read

2.4

Complex Numbers

3 min read

2.5

Quadratic Equations

4 min read

2.6

Other Types of Equations

3 min read

2.7

Linear Inequalities and Absolute Value Inequalities

2 min read

Key Concepts and Definitions

Equation a mathematical statement that two expressions are equal, indicated by the equals sign (=)
Inequality a mathematical statement comparing two expressions using symbols such as >, <, ≥, or ≤
- Strict inequalities use > or < and do not include the boundary value
- Inclusive inequalities use ≥ or ≤ and include the boundary value
Variable a letter or symbol representing an unknown value in an equation or inequality (x, y, z)
Coefficient a numerical value multiplied by a variable in an equation or inequality ( $3x$ , where 3 is the coefficient)
Constant a fixed value in an equation or inequality that does not change ( $y = 2x + 5$ , where 5 is the constant)
Like terms terms in an equation or inequality that have the same variables raised to the same powers ( $3x^2$ and $-5x^2$ are like terms)
Quadratic equation an equation containing a second-degree polynomial, typically in the form $ax^2 + bx + c = 0$

Linear Equations and Their Applications

Linear equation an equation that can be written in the form $ax + b = c$ $a x + b = c$ , where $a$ $a$ , $b$ $b$ , and $c$ $c$ are constants and $a ≠ 0$ $a \neq = 0$
- $a$ represents the slope or rate of change
- $b$ represents the y-intercept or starting point
Slope-intercept form a way to write linear equations, expressed as $y = mx + b$ , where $m$ is the slope and $b$ is the y-intercept
Point-slope form another way to write linear equations, expressed as $y - y_1 = m(x - x_1)$ , where $(x_1, y_1)$ is a point on the line and $m$ is the slope
Standard form a way to write linear equations, expressed as $ax + by = c$ , where $a$ , $b$ , and $c$ are constants
Parallel lines lines that never intersect and have the same slope
Perpendicular lines lines that intersect at a 90-degree angle and have slopes that are negative reciprocals of each other
Applications of linear equations include modeling real-world situations such as cost analysis, population growth, and distance-rate-time problems

Solving Inequalities

Solving inequalities involves finding the set of values that satisfy the inequality
When multiplying or dividing an inequality by a negative number, the direction of the inequality symbol must be reversed
Graphing inequalities on a number line
- Use an open circle for strict inequalities (< or >)
- Use a closed circle for inclusive inequalities (≤ or ≥)
- Shade the portion of the number line that satisfies the inequality
Compound inequalities involve connecting two or more inequalities with "and" (∧) or "or" (∨) logical operators
- "And" inequalities result in a solution set that satisfies both inequalities simultaneously
- "Or" inequalities result in a solution set that satisfies at least one of the inequalities
Absolute value inequalities involve inequalities containing absolute value expressions (|x|)
- Solve by considering two separate cases: one for the positive value and one for the negative value within the absolute value symbols

Systems of Equations

A system of equations is a set of two or more equations with the same variables
Solving a system of equations involves finding the values of the variables that satisfy all equations simultaneously
Substitution method solve one equation for a variable and substitute the resulting expression into the other equation
Elimination method multiply the equations by constants to eliminate one variable when the equations are added together
Graphing method graph the equations on the same coordinate plane and find the point(s) of intersection
- The point(s) of intersection represent the solution(s) to the system
Systems can have one solution (consistent and independent), no solution (inconsistent), or infinitely many solutions (consistent and dependent)
Applications of systems of equations include solving problems involving mixtures, money, and rate of work

Quadratic Equations and Functions

Quadratic equation an equation in the form $ax^2 + bx + c = 0$ , where $a$ , $b$ , and $c$ are constants and $a ≠ 0$
Quadratic function a function in the form $f(x) = ax^2 + bx + c$ $f (x) = a x^{2} + b x + c$ , where $a$ $a$ , $b$ $b$ , and $c$ $c$ are constants and $a ≠ 0$ $a \neq = 0$
- The graph of a quadratic function is a parabola
Solving quadratic equations
- Factoring find two linear factors that, when multiplied, result in the quadratic expression
- Quadratic formula $x = \frac{-b ± \sqrt{b^2 - 4ac}}{2a}$ , where $a$ , $b$ , and $c$ are the coefficients of the quadratic equation
- Completing the square rewrite the quadratic expression as a perfect square trinomial plus a constant
Discriminant the expression under the square root in the quadratic formula ( $b^2 - 4ac$ $b^{2} - 4 a c$ )
- Determines the nature of the roots (real and distinct, real and equal, or complex)
Vertex the point at which a parabola changes direction, either a maximum or minimum point
- Vertex formula $(\frac{-b}{2a}, f(\frac{-b}{2a}))$ , where $a$ and $b$ are the coefficients of the quadratic function

Graphing Techniques

Coordinate plane a two-dimensional plane formed by the intersection of a horizontal x-axis and a vertical y-axis
Origin the point of intersection of the x-axis and y-axis, represented as (0, 0)
Quadrants the four regions of the coordinate plane formed by the x-axis and y-axis (I, II, III, IV)
Plotting points represent ordered pairs (x, y) as points on the coordinate plane
Transformations of graphs
- Vertical shift $f(x) + k$ shifts the graph up by $k$ units if $k > 0$ or down by $|k|$ units if $k < 0$
- Horizontal shift $f(x - h)$ shifts the graph right by $h$ units if $h > 0$ or left by $|h|$ units if $h < 0$
- Vertical stretch/compression $af(x)$ stretches the graph vertically by a factor of $|a|$ if $|a| > 1$ or compresses the graph vertically by a factor of $|a|$ if $0 < |a| < 1$
- Horizontal stretch/compression $f(bx)$ compresses the graph horizontally by a factor of $|b|$ if $|b| > 1$ or stretches the graph horizontally by a factor of $|b|$ if $0 < |b| < 1$
- Reflection across the x-axis $-f(x)$ reflects the graph across the x-axis
- Reflection across the y-axis $f(-x)$ reflects the graph across the y-axis

Word Problems and Real-World Applications

Translating word problems into equations or inequalities
- Identify the unknown quantity and assign a variable
- Determine the relationships between the unknown and known quantities
- Write an equation or inequality that represents the problem
Distance-rate-time problems involve the relationship $distance = rate × time$ $d i s t an ce = r a t e \times t im e$
- Often require setting up a system of equations to solve for unknown distances, rates, or times
Mixture problems involve combining two or more substances with different concentrations or prices
- Often require setting up a system of equations to solve for unknown quantities or concentrations
Work problems involve the relationship between the rate at which a task is completed and the time it takes to complete the task
- Often require setting up a system of equations to solve for unknown rates or times
Revenue, cost, and profit problems involve the relationships $revenue = price × quantity$ $re v e n u e = p r i ce \times q u an t i t y$ , $profit = revenue - cost$ $p ro f i t = re v e n u e - cos t$ , and $cost = fixed cost + variable cost$ $cos t = f i x e d cos t + v a r iab l ecos t$
- May require setting up a quadratic equation to solve for unknown quantities or optimize profit

Common Mistakes and How to Avoid Them

Forgetting to distribute negative signs when expanding or factoring expressions
- Double-check each term to ensure the correct sign is applied
Incorrectly combining unlike terms
- Only combine terms with the same variables raised to the same powers
Dividing by zero or taking the square root of a negative number
- Always check for these situations and consider any restrictions on the variable
Misinterpreting the direction of inequality symbols when multiplying or dividing by a negative number
- Remember to reverse the direction of the inequality symbol when multiplying or dividing by a negative number
Graphing inequalities incorrectly on a number line
- Use an open circle for strict inequalities and a closed circle for inclusive inequalities
- Shade the correct portion of the number line that satisfies the inequality
Failing to check solutions in the original equation, inequality, or word problem
- Always substitute the solution back into the original problem to verify its correctness
Misinterpreting the meaning of variables or coefficients in word problems
- Carefully read the problem and identify the meaning of each variable and coefficient
- Ensure the equation or inequality accurately represents the problem