A. x = y2 + 8y + 27
B. x = 4y2 - 8y + 43
C. x = y2 - 8y + 43
D. x = y2 + y + 15
Answer:
Option C. x = y² - 8y + 43
Step-by-step explanation:
The vertex form of the equation of a parabola is x = (y - 4)² + 27
We have to find the standard form of the equation which is in the form of x = ay² + by + c
To get the standard form of the equation we will simplify the vertex form of the equation.
x = (y - 4)² + 27
x = y² + 16 - 8y + 27
x = y² - 8y + 43
This matches with option C. x = y² - 8y + 43
Answer:
the answer is 10 and 2
B.o 28.89°
C.o 56.51°
D.o 33.49°
The value of x is 33.49°.
A triangle with one of its angles measuring 90° is known as a right triangle.
Given a right triangle with a hypotenuse of length 58 and a leg of length 32.
Use the sine rule:
(sin90°) / 58 = (sinx) / 32
sinx = 32/58
x = sin⁻¹ ( 32/58)
x = 33.49°
Hence, the value of x is 33.49°.
Learn more about right triangles here:
#SPJ5
Answer:
D. 33.49
Step-by-step explanation:
m(x) = 90(1.2x)
Complete the table of values.
x 100 + 23x 90(1.2x)
0
1
2
3
4
5
Use the table to determine at approximately which point the number of cells will be the same for each organism.
Graph the system of equations, and show the point of intersection.
Explain what the points graphed for each line represent.
Explain how you can determine the solution to the equation 100 + 23x = 90(1.2x) using the graph from part c.
Find the point(s) of intersection, and explain what the intersection represents in the context of the problem.
s(x) = 100 + 23xs(x) = 100 + 23x
m(x) = 90(1.2x)