Answer:
Step-by-step explanation:
y - 3 = -6(x - 4)
y - 3 = -6x + 24
y = -6x + 27
Answer:
Option B. y = csc(x) + 1
Step-by-step explanation:
If we have to draw an asymptote graph( csc graph), we should draw the graph of sine first.
For y = a sin(bx+c) +d
Here from the given graph
a = (0+2)/2 = 1
period = (3π/2-π/2) = 2π
Therefore b = 2π/period = 2π/2π = 1
b = 1
Vertical shift d = 1
Now the equation will be y = 1×sin(1.x+0)+1
y = sinx + 1
Now we draw the sine graph y = sinx +1
Then we draw asymptotes touching the maximum and minimum values of sine graph.
Which reflects It's a graph of y = csc(x) + 1
Therefore option B. is the right answer.
Answer:
9.5%.
Step-by-step explanation:
The probability in this case is calculated by publishing the probability of each event. That is, the first event of taking out one of chocolate and then taking out a gummy one where there is one less chocolate.
Therefore, in total they are 5 + 4 + 6 = 15 sweets.
Therefore the probability of getting one of chocolate is:
5/15 = 1/3
Now, in the second event there is one less sweet, that is, 14. Therefore the probability of taking out a gummy one is:
4/14 = 2/7
Then the final probability would be:
(1/3) * (2/7) = 0.095 = 9.5%
The probability of what the statement says is 9.5%.
I hope this helps! The domain of the inverse function is (4,-5).