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bagirrra123 [75]
3 years ago
11

On the coordinate plane below, what is the length of AB?

Mathematics
1 answer:
Mariana [72]3 years ago
5 0
The answer is C.15 your welcome
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Find the average rate of change for f(x) = x2 + 9x + 18 from x = −10 to x = 10.
igor_vitrenko [27]
The average rate of change formula is 
           f(b) - f(a)
arc = ----------------
               b-a
                    
Here, a= -10 and b = 10

                   (10)^2 + 9(10) + 18 - [ (-10)^2 + 9(-10) + 18]
Here arc = --------------------------------------------------------------
                                     10 - (-10)

10^2 and -(-10)^2 cancel.     18 - 18 cancel.

                                               90 - (-90)            180
This leaves us with     arc = ----------------- = ------------- = 9 (answer)
                                                   20                     20
7 0
3 years ago
What’s the least common denominator for the fractions 2/5 and 5/6
Rus_ich [418]

Answer: 30

Step-by-step explanation:

4 0
3 years ago
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What is the factored form of 6x^2+11x-10?
Dennis_Churaev [7]
(3x-2)(2x+5) this is factored by grouping.
3 0
3 years ago
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Find the absolute maximum and minimum values of the following function on the specified region R.
yan [13]

Answer:

Step-by-step explanation:

Since it is said that the region R is a semicircular disc, we asume that the boundaries of the region are given by -2\leq x \leq 2, 0\leq y \leq \sqrt[]{4-x^2}. First, we must solve the optimization problem without any restrictions, and see if the points we get lay inside the region of interest. To do so, consider the given function F(x,y). We want to find the point for which it's gradient is equal to zero, that is

\frac{dF}{dx}=9y=0

\frac{dF}{dy}=9x=0

This implies that (x,y) = (0,0). This point lays inside the region R. We will use the Hessian criteria to check if its a minimum o r a maximum. To do so, we calculate the matrix of second derivates

\frac{d^2F}{dx^2} = 0 = \frac{d^2F}{dy^2}

\frac{d^2F}{dxdy} = 9 = \frac{d^2F}{dydx}

so we get the matrix

\left[\begin{matrix} 0 & 9 \\ 9 & 0\end{matrix}\right]

Note that the first determinant is 0, and the second determinant is -9. THis tell us that the point  is a saddle point, hence not a minimum nor maximum.  

Since the function is continous and the region R is closed and bound (hence compact) the maximum and minimum must be attained on the boundaries of R. REcall that when -2\leq x \leq x and y=0 we have that F(x,0) = 0. So, we want to pay attention to the critical values over the circle, restricting that the values of y must be positive. To do so, consider the following function

H(x,y, \lambda) = 9xy - \lambda(x^2+y^2-4) which consists of the original function and a function that describes the restriction (the circle x^2+y^2=4), we want that the gradient of H is 0.

Then,

\frac{dH}{dx} = 9y-2\lambda x =0

\frac{dH}{dx} = 9x-2\lambda y =0

\frac{dH}{d\lambda} = x^2+y^2-4 =0

From the first and second equation we get that

\lambda = \frac{9y}{2x} = \frac{9x}{2y}

which implies that y^2=x^2. If we replace this in the restriction, we have that x^2+x^2 = 2x^2 = 4 which gives us that x=\pm \sqrt[]{2}. Since we only care for the positive values of y, and that y=\pm x, we have the following critical points (\sqrt[]{2},\sqrt[]{2}), (-(\sqrt[]{2},\sqrt[]{2}). Note that for the first point, the value of the function is

F(\sqrt[]{2},\sqrt[]{2}) = 9\cdot 2 =18

as for the second point the value of the function is

F(-\sqrt[]{2},\sqrt[]{2}) = 9\cdot -2 =-18.

Then, the point (\sqrt[]{2},\sqrt[]{2}) is a maximum and the point (-(\sqrt[]{2},\sqrt[]{2}) is a minimum.

6 0
3 years ago
There are about 30.5 centimeters in a foot. There are 3 feet in a yard. About how many centimeters in a yard? Please explain how
Licemer1 [7]
91.5 centimeters!
Because there is 30.5 centimeters in one foot, and 3 feet in a yard, you need to multiply 30.5 by 3 for each foot, or 30.5*3=91.5!
4 0
2 years ago
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