Answer:
The correct option is;
f(x) = 3·sin x/8·π + 2
Step-by-step explanation:
The given parameters for the sinusoidal function are;
Amplitude of oscillation = 3
Frequency of oscillation = 1/8·π
Midline of oscillation= 2
The general form of sinusoidal equation is y = A·sin(B(x - C)) + D
Where;
A = The amplitude
B = The frequency
C = The horizontal shift
D = The midline or vertical shift
Substituting the given values into the general form of sinusoidal equation, we have;
f(x) = y = 3·sin(1/8·π(x - 0)) + 2 = 3·sin(x/8·π) + 2
Which gives;
f(x) = 3·sin(x/8·π) + 2.
I think it the answer is A
Answer:
(
0
,
−
2
)
Step-by-step explanation:
Use the midpoint formula to find the midpoint of the line segment
The quadcopter's average velocity is given in terms of change in position by
where , the difference in the quadcopter's final and initial positions and .
The -component of the average velocity is 2.70 m/s, so
and the -component is -2.50 m/s, so