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39 votes
39 votes
The steps to derive the quadratic formula are shown below:

Step 1 ax2 + bx + c = 0
Step 2 ax2 + bx = − c
Step 3 x2 + b over a times x equals negative c over a
Step 4 x2 + b over a times x plus b squared over 4 times a squared equals negative c over a plus b squared over 4 times a squared
Step 5 x2 + b over a times x plus b squared over 4 times a squared equals negative 4 multiplied by a multiplied by c, all over 4 multiplied by a squared plus b squared over 4 times a squared
Step 6


Provide the next step to derive the quadratic formula. (1 point)

x plus b over 2 times a equals plus or minus b squared minus 4 times a times c all over the square root of 4 times a squared

x plus b over 2 times a equals plus or minus b minus 2 times a times c all over square root of 2 times a

x plus b over 2 times a equals plus or minus the square root of the quantity b squared minus 4 times a times c all over the square root of 4 times a squared

x plus b over 2 times a equals plus or minus the square root of the quantity b squared minus 4 times a times c all over the square root of 2 times a

The steps to derive the quadratic formula are shown below: Step 1 ax2 + bx + c = 0 Step-example-1
User Jeremy DeGroot
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3.4k points

1 Answer

6 votes
6 votes

Answer:
x+(b)/(2a)=\pm (√(b^2 - 4ac))/(√(4a^2))

Explanation:

We can rewrite the left hand side as a perfect square, more specifically


\left(x+(b)/(2a) \right)^2

So, taking the square root of both sides,


x+(b)/(2a)=\pm (√(b^2 - 4ac))/(√(4a^2))

User Lethjakman
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2.8k points