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2.2 b Writing equations in vertex form

2.2 b Writing equations in vertex form. Because the vertex is translated h horizontal units and k vertical from the origin, the vertex of the parabola is at ( h , k ). Hint: Vertical stretch makes the parabola skinnier. Vertical compression makes the parabola wider. Remember!

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2.2 b Writing equations in vertex form

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  1. 2.2 bWriting equations in vertex form

  2. Because the vertex is translated h horizontal units and kvertical from the origin, the vertex of the parabola is at (h, k). Hint: Vertical stretch makes the parabola skinnier. Vertical compression makes the parabola wider.

  3. Remember! If the parabola is moved left, then there will be a + sign in the parentheses. If the parabola is moved right, then there will be a – sign in the parentheses. Do not switch the sign outside the parentheses!

  4. 4 4 = Vertical stretch by : a 3 3 Example 4: Writing Transformed Quadratic Functions Use the description to write the quadratic function in vertex form. The parent function f(x) = x2 is vertically stretched (skinnier) by a factor of and then translated 2 units left and 5 units down to create g. Step 1 Identify how each transformation affects the constant in vertex form. Translation 2 units left: h = –2 Translation 5 units down: k = –5

  5. = (x – (–2))2 + (–5) Substitute for a, –2 for h, and –5 for k. = (x + 2)2 – 5 g(x) = (x + 2)2 – 5 Example 4: Writing Transformed Quadratic Functions Step 2 Write the transformed function. g(x) =a(x – h)2 + k Vertex form of a quadratic function Simplify.

  6. Vertical compression by : a = Check It Out! Example 4a Use the description to write the quadratic function in vertex form. The parent function f(x) = x2 is vertically compressed (wider) by a factor of and then translated 2 units right and 4 units down to create g. Step 1 Identify how each transformation affects the constant in vertex form. Translation 2 units right: h = 2 Translation 4 units down: k = –4

  7. = (x – 2)2 – 4 = (x – 2)2 + (–4) Substitute for a, 2 for h, and –4 for k. g(x) = (x – 2)2 – 4 Check It Out! Example 4a Continued Step 2 Write the transformed function. g(x) =a(x – h)2 + k Vertex form of a quadratic function Simplify.

  8. Check It Out! Example 4b Use the description to write the quadratic function in vertex form. The parent function f(x) = x2 is reflected across the x-axis and translated 5 units left and 1 unit up to create g. Step 1 Identify how each transformation affects the constant in vertex form. Reflected across the x-axis: a is negative Translation 5 units left: h = –5 Translation 1 unit up: k = 1

  9. Check It Out! Example 4b Continued Step 2 Write the transformed function. g(x) =a(x – h)2 + k Vertex form of a quadratic function = –(x –(–5)2 + (1) Substitute –1 for a, –5 for h, and 1 for k. = –(x +5)2 + 1 Simplify. g(x) =–(x +5)2 + 1

  10. g is f reflected across x-axis, vertically compressed by a factor of , and translated 1 unit left. Lesson Quiz: Part II 2. Using the graph off(x) = x2 as a guide, describe the transformations, and then graph g(x) = (x + 1)2.

  11. Lesson Quiz: Part III 3. The parent functionf(x) = x2 is vertically stretched by a factor of 3 and translated 4 units right and 2 units up to create g. Write g in vertex form. g(x) = 3(x – 4)2 + 2

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