RWM102 Study Guide

Unit 2: Linear Equations

2a. Determine whether a given real number is a solution of an equation 

  • How do you know if a value is a solution to an equation?

A value is considered a solution to an equation if you can replace the variable with that value and the outcome is true. To check if a value is a solution, first, substitute the value in place of the variable. Then, simplify the expressions on both sides of the equation. Finally, determine if the final statement is true.

For example, determine if x = 3 is a solution to the equation 2x+3=5x-2. First, substitute 3 in place of x on both sides of the equation: 2(3)+3=5(3)-2. Next, simplify both sides of the equation: 6+3=15-2. Finally, determine if the final statement is true: 9=13 is not true, therefore 3 is not a solution to this equation.

To review, see Solving Linear Equations with One Variable.

 

2b. Simplify equations using addition and multiplication properties 

  • How do you simplify equations using addition properties?
  • How do you simplify equations using multiplication properties?

When solving equations, we can use some basic properties to find the value of the variable. When a constant is added or subtracted with your variable, you can isolate the variable by doing the opposite operation with the same value on both sides of the equation. For example, to solve the equation x+4=7, notice that 4 is currently being added to our variable, x. To solve this equation, simply subtract 4 from both sides. x+4-4=7-4. This will give the answer x=3.

Similarly, if the variable is being multiplied or divided by a number you can again perform the opposite operation with the same number on both sides of the equation to solve for the variable. For example to solve the equation \dfrac{x}{4}=3, notice the variable x is being divided by 4. Multiply both sides of the equation by 4 to solve for x. \dfrac{x}{4} \times 4=3 \times 4. Therefore x = 12.

To review, see The Subtraction and Addition Properties of Equality and The Division and Multiplication Properties of Equality

 

2c. Find the solution of a given linear equation with one variable 

  • How do you solve equations using addition and subtraction properties?
  • How do you solve equations using multiplication and division properties?
  • How do you solve 2-step equations?
  • How do you solve equations with variables on both sides?
  • How do you solve equations with parentheses?

When solving an equation with multiple steps, always begin by eliminating any addition or subtraction first, before addressing any multiplication or division. For example, we can use addition/subtraction properties in the equation 3x - 2 = 7, begin by adding 2 to both sides, since there is a -2 already there. This yields, 3x - 2 + 2 = 7 + 2, which simplifies to 3x = 9. Now we can use multiplication/division properties to divide both sides by 3, giving us a final answer of x = 3.

If there is an equation with numbers and variables on both sides, first you must collect all terms with the variable on one side, and all terms without variables (the constants) on the other side of the equal sign. Then solve the equation as described above. For example, 3x+1=2x+5 would be solved by subtracting 2x from both sides, 3x-2x+1=2x-2x+5, which gives us x+1=5. Then subtract 1 from both sides, x+1-1=5-1, which gives the final answer, x=4.

If the equation has parentheses, first use the order of operations and/or the distributive property to remove the parentheses, then solve as described above.

To review, see:

 

2d. Determine the number of solutions of a given linear equation in one variable 

  • Can a linear equation in one variable have no solutions?
  • Can a linear equation in one variable have more than one solution?

In certain instances, equations have solutions that do not end with the variable equal to a single specific value, as we saw in 2b and 2c. When solving an equation, if all the variables cancel, we end up with a statement with constants on both sides. For example, 3x+5=3x-1. When we solve this equation, we end up with 5=-1. Since this is false, this equation has no solutions.

On the other hand, if the final solution is a true statement, such as 3=3, then we say the equation has "infinitely many solutions", or "all real numbers", because any value for the variable will still make 3=3 true.

To review, see Solving Linear Equations with One Variable

 

2e. Solve a literal equation for the given variable 

  • How do you solve an equation for a specific variable?

Sometimes equations have more than one variable, and instead of finding a value for a specific variable, we need to simply solve the equation for a variable. For example, if we solve the equation 3v+s=t-2 for the variable s, we simply use the same skills we have learned for solving equations by subtracting 3v from both sides, giving us an answer of s=t-2-3v.

To review, see Solving for One Variable

 

2f. Rearrange formulas to isolate a quantity of interest  

  • How can you use a formula set up for a specific variable to instead find a different variable?

Sometimes you may find a formula given to you that isn't set up to give you the quantity you desire. For example, in the formula F+V=E+2, the formula is not currently set up to give you the value of V. You can simply solve the formula for V, as we have done before, to get the new formula, V=E+2-F. Now you can use the values you are given for E and F to find V.

To review, see Solving for One Variable

 

Unit 2 Vocabulary

This vocabulary list includes terms listed above that students need to know to successfully complete the final exam for the course.

  • solution
  • statement 
  • opposite operation 
  • parentheses 
  • no solutions 
  • infinitely many solutions 
  • all real numbers