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This: 5^2
No, it is the discriminant of a quadratic equation.
No, not if the y is squared. When graphed the equation will not form a straight line.
y=12
The equation ax2 + bx + c = 0, where a != 0 is called quadratic.
This: 5^2
y2 = -x2 - 8x + 6
No, it is the discriminant of a quadratic equation.
No, not if the y is squared. When graphed the equation will not form a straight line.
y=12
First, you remove every x that you can from the equation. Next, you reach the simplest form of the equation, which is (7x-2)(x-2). Which is the lowest factorable form.
The equation ax2 + bx + c = 0, where a != 0 is called quadratic.
Because it is in the form of ax^2+bx+c=0 Because quadratic means squared hence ax squared + bx +c=0 has a squared number as it's highest term. This is in fact the area of a square of a side "x" is x^2, so every equation having variable with exponent 2 become quadratic equation.
the answer is a(n) equationequationWhen two expressions are equivalent they can form an equation.
An equation of the second degree, meaning it contains at least one term that is squared.
Yes. Einstein proved this with his theory of relativity, and his equation, E=m c squared
Area of a circle = pi*radius squared Circumference of a circle = 2*pi*radius or diameter*pi