Answer:
The circumcenter of a triangle is a point that is equidistant from all three vertices.
Step-by-step explanation:
What is equidistant from the vertices of a triangle?
The circumcenter of a triangle is a point that is equidistant from all three vertices.
Answer:
x−2x4+2x3−7x2−8x+12=x3+4x2+x−6
The rational root theorem suggests that other possible roots may be -6, 6, -3, 3, -2, 2, -1, and 1. It turns out that x=-2x=−2 is a root, since (-2)^3+4(-2)^2+(-2)-6=0(−2)3+4(−2)2+(−2)−6=0 , so x+2x+2 is also a factor and we have
\dfrac{x^4+2x^3-7x^2-8x+12}{(x-2)(x+2)}=x^2+2x-3(x−2)(x+2)x4+2x3−7x2−8x+12=x2+2x−3
Finally, we can factorize the remaining quotient easily:
x^2+2x-3=(x+3)(x-1)x2+2x−3=(x+3)(x−1)
so the other factors are x+2x+2 , x+3x+3 , and x-1x−1 .
Answer:
The value of "x" is 5.
Step-by-step explanation:
In order to solve this system of equations, we first have to take the first equation and use it to represent "y" in terms of "x". We do that in the following way...
Now, we need to take the second equation and substitute "y" for the equivalent value in terms of "x". After doing this we will get the following equation, which we can solve to get the value of "x".
Therefore, the value of "x" is 5.
Given , ⊙A ≅ ⊙V
To find:
What congruency statements can you make? Check all that apply.
BC ≅ ZY
∠ DAB ≅ ∠ ZVX
BE ≅ ZX
Solution:
Consider the attached figure while going through the following steps.
If two circles are congruent, then their corresponding chords are also congruent along with the congruent intercepted arcs.
⇒ BC ≅ ZY
and
⇒ BE ≅ ZX
Answer:
b
Step-by-step explanation:
{x | x I, x ≥ 3}
