Coordinates in the cartesian plane very well have distances from each other. Therefore, some innovative mathematicians derived the distance formula in order to easily calculate the distance of two points in the plane. The distance formula is:
I hope I was able to answer your question. Have a good day.
Answer:
C) -0.91
Step-by-step explanation:
A indicates a very slight positive correlation; not a strong one. B indicates a moderate negative correlation, but again, not a strong one. D indicates a strong correlation, but it is less than C, which I will get to. The answer is C, and because it is closest to ± 1, it is the strongest correlation.
Answer:
The Proof is given below.
Step-by-step explanation:
Given:
bisect ∠ EHG.i.e
∴ ∠EHF ≅ ∠ GHF
To Prove:
Proof:
In Δ EHF and Δ GHF
EH ≅ GH ………............{Given}
∠ EHF ≅ ∠ GHF …………..{EF bisect ∠ EHG as given above}
HF ≅ HF ………............{Reflexive Property}
Δ EHF ≅ Δ GHF …................{ By Side-Angle-Side test}
∴ EF ≅ GF........{corresponding parts of congruent triangles (c.p.c.t).}
....... PROVED
70 - 42 = ______. GO i know you can do it!!
Answer:
the answer would be 6x^2(x+6)(x-2)
Step-by-step explanation:
6x^4 + 24x^3-72x^2
= 6x^2(x^2+4x-12)
= 6x^2(x+6)(x-2)
