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Completing the square with parabolas. MM3G2.a. Convert equations of conics by completing the square. Completing the square with parabolas. Put the equation in standard form Move the constant to the other side Factor out whatever is multiplied on the squared term, if possible.
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Completing the square with parabolas MM3G2.a. Convert equations of conics by completing the square.
Completing the square with parabolas • Put the equation in standard form • Move the constant to the other side • Factor out whatever is multiplied on the squared term, if possible. • Complete the square to find the perfect square trinomial. • Factor the trinomial. • Move the constant back to the other side.
Example 2: • Put the equation in standard form • Move the constant to the other side • Factor out whatever is multiplied on the squared term, if possible. • Complete the square to find the perfect square trinomial. • Factor the trinomial. • Move the constant back to the other side. 4. 5. 6.
Example 3: • Put the equation in standard form • Move the constant to the other side • Factor out whatever is multiplied on the squared term, if possible. • Complete the square to find the perfect square trinomial. • Factor the trinomial. • Move the constant back to the other side. 4. 5. 6.
Example 4: • Put the equation in standard form • Move the constant to the other side • Factor out whatever is multiplied on the squared term, if possible. • Complete the square to find the perfect square trinomial. • Factor the trinomial. • Move the constant back to the other side. 4. 5. 6.
Example 5: • Put the equation in standard form • Move the constant to the other side • Factor out whatever is multiplied on the squared term, if possible. • Complete the square to find the perfect square trinomial. • Factor the trinomial. • Move the constant back to the other side. 4. 5. 6.