# Converting radi...

Converting radians to degrees: To convert radians to degrees, we make use of the fact that $$\pi$$ radians equals one half circle, or 180º. This means that if we divide radians by $$\pi$$, the answer is the number of half circles. Multiplying this by 180º will tell us the answer in degrees. So, to convert radians to degrees, multiply by $$\frac{180}{\pi}$$, like this: $$degrees = radians \times \frac{180}{\pi}$$

# Converting degr...

Converting degrees to radians: To convert degrees to radians, first find the number of half circles in the answer by dividing by 180º. But each half circle equals $$\pi$$ radians, so multiply the number of half circles by $$\pi$$. So, to convert degrees to radians, multiply by $$\frac{\pi}{180}$$, like this: $$radians = degrees \times \frac{\pi}{180}$$

# Solution of qua...

Solution of quadratic equations. A quadratic equation is any equation having the form $$ax^2+bx+c=0$$ where $$x$$ represents an unknown, and $$a,b$$ and $$c$$ represent known numbers such that $$a$$ is not equal to 0. There are two stages in solving quadratic equations. 1) Find discriminant using formula $$D=b^2-4ac$$
2) Check the sign of discriminant: 2.1) If $$D>0$$, then equation has two (unequal) real solutions $$x_{1,2}=\dfrac{-b\pm\sqrt{D}}{2\cdot a}$$
2.2) If $$D=0$$, then equation has two (equal) real solutions $$x=\dfrac{-b}{2\cdot a}$$
2.3) If $$D<0$$, then equation has no real solutions.

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