Transcript MTH 098

MTH 091
Sections 3.2 and 3.3
Solving Linear Equations
The Big Ideas
• An equation is an statement that says two
algebraic expressions are equal.
• Linear equations can be written in the form
Ax + B = C, where A, B, and C are real numbers
and A is not equal to 0.
• The goal of solving a linear equation is to isolate
the variable, to get x by itself on one side of the
equation.
• The answer to the problem, or solution, can be
substituted back into the equation to make a true
sentence.
The Addition Property of Equality
• If A = B, then A + C = B + C
• In words: we can add the same number to
each side of an equation without changing the
equation.
• Connection to solving equations: if something
is being added to/subtracted from your
variable term, add/subtract that thing to/from
both sides of the equation.
The Multiplication Property of Equality
• If A = B, then AC = BC
• In words: we can multiply each side of an equation by
the same (non-zero) number without changing the
solution.
• Connection to solving equations: if your isolated
variable has a coefficient, divide both sides of the
equation by that coefficient.
• If your isolated variable is being divided by a number,
multiply both sides of the equation by that number.
• If the coefficient of your isolated variable is a fraction,
multiply both sides of the equation by the reciprocal of
that fraction.
Putting It All Together
1. Simplify each side separately.
a. Got parentheses? Apply the distributive
property.
b. Got fractions? Multiply fractional
coefficients and constants by the LCD.
c. Got decimals? Multiply decimal
coefficients and constants by 10, 100,
1000, etc.
d. Combine like terms on each side of the
equation. Do NOT combine like terms across
the equal sign!
Continued…
2. Isolate the variable term on one side.
a. If you have variable terms on the left side, leave them
there. If you have variable terms on the right side,
move them to the left side (change sides, change
signs).
b. If you have constant terms on the right
side, leave them there. If you have constant
terms on the left side, move them to the
right side (change sides, change signs).
c. You can also do this by adding or subtracting terms
from both sides as necessary.
d. Combine like terms on each side.
Almost Finished…
3. Isolate the variable
a. You should now have a variable term on
the left and a constant term on the right.
b. Divide both sides of the equation by the
coefficient of the constant term.
c. Your variable should now be isolated.
Examples
x  2  3  8
36  y  5 y
z
13  7 
6
 3 x  2 x  9  14
2( 4 x  5)  9 x
More Examples
21k  5(4k  5)
 3( 7  2c)  7c
 9( x  2)  15  27  12
 4( h  4)  0
5 y  4  6( y  7 )
Something Unusual
• Sometimes, in trying to isolate your variable, that
variable will “disappear”
• When this happens, there are two possible results:
1. Your equation has no solution (contradiction)
because what remains is a false statement.
2. Your equation has infinitely many solutions
(identity) because what remains is a true statement.
Examples
14 x  7  7(2 x  1)
x
x
2
3
3
2( x  5)  2 x  10
 5(4 y  3)  2  20 y  17
Closing Remarks
• Many students already have strategies in place
for solving linear equations. Whatever
methods you choose to use:
• Practice
• Practice
• More Practice
Translating Phrases and Sentences to
Algebraic Expressions and Equations
• Look for words that indicate a particular
operation:
“sum” or “more than” mean to add
“difference”, “minus”, and “less than” mean to
subtract
“product” and “times” mean to multiply
“quotient” and “divided by” mean to divide
“is” means equals
• Where two types of words are used together,
parentheses may be necessary.
Still More Examples
Change each word phrase to an algebraic
expression. Use x as the variable to represent the
number.
• 9 subtracted from a number
• Three added to the product of seven and a
number
Write each sentence as an equation.
• The product of -5 and 9 gives -45.
• The sum of -37 and 18 is -19.