Lesson 11
What are Perfect Squares?
Problem 1
Select all the expressions that are perfect squares.
\((x+5)(x+5)\)
\((\text 9 + c)(c9)\)
\((y10)(10y)\)
\((a+3)(3+a)\)
\((2x1)(2x+1)\)
\((43x)(34x)\)
\((a+b)(b+a)\)
Solution
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Problem 2
Each diagram represents the square of an expression or a perfect square.
\((n+7)^2\)
\(n\)  \(7\)  

\(n\)  \(n^2\)  \(7n\) 
\(7\)  \(7n\)  \(7^2\) 
\((5m)^2\)
\(5\)  \(\textm\)  

\(5\)  \(5^2\)  \(5(\textm)\) 
\(\textm\)  \(5(\textm)\)  \((\textm)^2\) 
\((h+\frac13)^2\)
\(h\)  \(\frac13\)  

\(h\)  
\(\frac13\) 
 Complete the cells in the last table.
 How are the contents of the three diagrams alike? This diagram represents \((\text{term_1}+\text{term_2})^2\). Describe your observations about cells 1, 2, 3, and 4.
term_1 term_2 term_1 cell 1 cell 2 term_2 cell 3 cell 4  Rewrite the perfectsquare expressions \((n+7)^2\), \((5m)^2\), and \((h+\frac13)^2\) in standard form: \(ax^2+bx+c\).
 How are the \(ax^2\), \(bx\), and \(c\) of a perfect square in standard form related to the two terms in \((\text{term_1}+\text{term_2})^2\)?
Solution
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Problem 3
Solve each equation.
 \((x  1)^2 = 4\)
 \((x + 5)^2 = 81\)
 \((x  2)^2 = 0\)
 \((x + 11)^2 = 121\)
 \((x  7)^2 = \frac{64}{49}\)
Solution
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Problem 4
Explain or show why the product of a sum and a difference, such as \((2x+1)(2x1)\), has no linear term when written in standard form.
Solution
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(From Unit 7, Lesson 8.)Problem 5
To solve the equation \((x+3)^2=4\), Han first expanded the squared expression. Here is his incomplete work:
\(\begin{align}(x+3)^2&=4\\ (x+3)(x+3)&=4\\ x^2+3x+3x+9&=4\\ x^2+6x+9&=4 \end{align}\)
 Complete Han’s work and solve the equation.

Jada saw the equation \((x+3)^2=4\) and thought, “There are two numbers, 2 and 2, that equal 4 when squared. This means \(x+3\) is either 2 or it is 2. I can find the values of \(x\) from there.”
Use Jada’s reasoning to solve the equation.
 Can Jada use her reasoning to solve \((x+3)(x3)=5\)? Explain your reasoning.
Solution
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Problem 6
A jar full of marbles is displayed. The following table shows the guesses for 10 people. The actual number of marbles in the jar is 145. Calculate the absolute guessing error for all 10 guesses.
guess  190  150  125  133  167  160  148  200  170  115 

absolute guessing error 
Solution
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(From Unit 4, Lesson 13.)