Step-by-step explanation:
y = 2/27 x² − 4/3 x
a) The leading coefficient (the coefficient of the x² term) is positive, so that means the parabola points up. So the vertex is at the bottom of the parabola, making it a minimum.
b) For a parabola y = ax² + bx + c, the x coordinate of the vertex can be found at x = -b / (2a). Here, a = 2/27 and b = -4/3.
x = -(-4/3) / (2 × 2/27)
x = (4/3) / (4/27)
x = (4/3) × (27/4)
x = 9
c) To find the y coordinate of the vertex, we simply evaluate the function at x=9:
y = 2/27 x² − 4/3 x
y = 2/27 (9)² − 4/3 (9)
y = 6 − 12
y = -6
d) The ordered pair is (9, -6). This means that at the lowest point of the dish, the dish is 6 inches deep. Also, since the dish is symmetrical, and the lowest point is 9 inches from the end, then the total width is double that, or 18 inches.
Multiply by the reciprocal by 3 and divide the common denominator by 14
We have:
- n⁰ = 55⁰
- m⁰ = 180⁰ - 75⁰ - 55⁰ = 50⁰
Answer: n⁰ = 55⁰, m⁰ = 50⁰
ok done. Thank to me :>
The x-value at the y-intercept is 0. The y-value there is 2. As the x-value increases by 1 unit to x=1, the y-value decreases by 1 unit to y=1. Thus, the slope is -1, and the slope-intercept form of the equation can be written as
... y = -x + 2
Subtracting the right side puts the equation into general form.
... x + y - 2 = 0
Answer:
The probability that the difference of the proportions (industrial - rural) is greater than 0.2 is 0.7054
Step-by-step explanation:
Solution
Given that:
n₁ = 1500
x₁ = 800
p₁ =800/1500 =0.533
q₁ = 1- 0.533 = 0.467
Thus,
n₂ =1000
x₂ = 300
p₂ = 300/1000 = 0.3
q₂ = 1-0.3 =0.7
So,
p₁ - p₂ = 0.533 - 0.3
=0.233
Now,
SE (p₁ - p₂ ) =√0.533 * 0467/150 + 0.3 * 0.7/1000
=0.0613
So,
p ( p₁ - p₂ > 0.2
= p ( Ƶ > 0.2 - 0.233/0.0613
p = ( Ƶ > - 0.54)
= 0.7054
