11 , 12 , 13 , 15 , 21 , 22 , 24 , 26 , 31 , 33 , 35 , 36 , 42 , 44 , 45 , 46 , 51 , 53 , 54 , 55 , 62 , 63 , 64 , 66 , Total = 24
Probability =24 / 36 = 2 / 3
It's F. A probability of 1 is a certainty, i.e.,, 100% probable.
.
10 11 13 18
30 31 33 38
80 81 83 88
I can't think of any more.
Fibonacci(2006) mod 5 = 3
6 (x^2+2x) -3 (y^2+6y) = 3 complete the square for x and y
6 (x+1)2 - 3 (y+3)2 = 3 +6 -27 = -18 divide both sides by -18
(y+3)2 / 6 - (x+1)2 / 3 = 1
Angles: PQR, PRQ, RTS, and RST are congruent. QR = 8 and SQ = 2. Find PQ.
Hint: QR = QT = 8 Place a point U on PQ so that TU || QR TU = SQ = 2
PQ = 9.237604306
thanks!! :)
i got 3x +13
DBC - DBE = EBC
(12x-3) - (5x+12) = (3x+13) solve for 'x' then EBC = 3x + 13
If it is a CUBE shaped box, the side length will have to be 12 inches to match the height
12 x 12 x 12 = 1728 in3
wait i got it... it was 6^3 = 1728
If I haven't read it wrong, I believe that you question is -6-(-10).
First, you have to change the equation to -6+10 because the two negatives become a positive.
Then you do -6+10 which equals 4.
I hope that my answer helped!
Vertex is 3,1 from the graph
Vertex form of parabola
y = a ( x-3)^2 + 1 sub in another point to calc a = -1
y = - (x-3)2 + 1
slope of given line, m = -3 perpindicular = -1/m = 1/3
Point slope form (using the point given)
(y+6) = 1/3 (x-5)
60/(27+60) = 80/(80 + 2x) solve for x
10th term + 5 d = 15th term
39 + 5d = 59
d = 4
10th term - 9d = first term
39 - 9(5) = .......
1/160 x 10-6 = 6250 hz = 6.25 kHz
Not sure about Sampling Theorem but I THINK the highest would be 6.25 kHz/2 = 3.125 kHz Highest freq in signal
27 = 128 so you will need 7 bits to represent
7 bits x 6.25 x 103 samples = 43750 bits per second = 4.38 x 104 bits per second
That is incorrect, but thanks anyway
(0.2)*(0.4)*(0.6) is basically 2 * 4 * 6 but 3 spaces after the decimal. (See why?) So, 2*4*6 is 8*6 = 48. Add three spaces after dec8mal point, and we get 0.048.
:)
(x+1)^2 * x
To start, we see that (x+1)^2 is x^2+2x+1 (using the unofficial square "formula")
Multiplying the whole thing by x is simple: all we have to do is stick an x onto each term. This will give x^3+2x^2+x.
The product of all possible values of y is (2)(-8) = -16.
|z + w| = 6, |zw| = 8, |z - w| = 2, |z/w| = 2.
Inverse functions are fairly simple, once you get used to them. To start, we need to set f(x) to y, and interchange the x and y. So, we have x=3y+1/y-2. We now need to solve for y in terms of x:
y=1+2x/x-3
Yay! 😃
