IM Alg1.7.22 Lesson: Rewriting Quadratic Expressions in Vertex Form
These expressions each define the same function.
Without graphing or doing any calculations, determine where the following features would be on a graph that represents the function.
the vertex
the -intercepts
the -intercepts
Here are two expressions in vertex form. Rewrite each expression in standard form. Show your reasoning.
Think about the steps you took, and about reversing them. Try converting one or both of the expressions in standard form back into vertex form. Explain how you go about converting the expressions.
Test your strategy by rewriting in vertex form.
Let’s check the expression you rewrote in vertex form. Use graphing technology to graph both x²+10x+9 and your new expression.
Does it appear that they define the same function?
If you convert your expression in vertex form back into standard form, do you get ?
Here is one way to rewrite 3x²+12x+9 in vertex form.
What is the vertex of the graph that represents this expression?
Does the graph open upward or downward? Explain how you know.
Rewrite each expression in vertex form. Show your reasoning.
Write in vertex form without completing the square. (Hint: Think about finding the zeros of the function.) Explain your reasoning.
Write in vertex form without completing the square. Explain your reasoning.
Your teacher will give you either a problem card or a data card. Do not show or read your card to your partner.
Pause here so your teacher can review your work. Ask your teacher for a new set of cards and repeat the activity, trading roles with your partner.If your teacher gives you the data card: If your teacher gives you the problem card: