Each person will get one slice and a half. Just do 9÷6.
Think of "of" as times, so you are finding out what multiplies by 106% to get 7.95.
$7.95 divided by 1.06 = $7.50
106% of $7.50 = $7.95
11.
Given:
There are given that the unction:
![x^2+y^2=4](https://tex.z-dn.net/?f=x%5E2%2By%5E2%3D4)
Explanation:
According to the question:
We need to fid the codition.
So,
From the given function:
![x^{2}+y^{2}=4](https://tex.z-dn.net/?f=x%5E%7B2%7D%2By%5E%7B2%7D%3D4)
Then,
According to the vertical line concept,
If you draw a vertical linefor any value of x in the domain, then does the vertical encounter no more than one y value.
Then,
We can say that if we do that , then we will two x values.
Final answer:
Hece, the answer is No.
With the information given it’s 2a + 4
Note: Type "2^x" without quotes to indicate
![2^x](https://tex.z-dn.net/?f=2%5Ex)
When you graph this function, you'll see that we have the exponential curve sloping upward as x increases. The function increases upward without bound. In other words, it goes on forever upward. There are no restrictions on the "ceiling" so to speak of this function curve.
There is a floor though. The floor in this case is like an electric fence that the function never touches. It only gets closer. This is known as the "horizontal asymptote". In this case, the horizontal asymptote is the line y = 0 which lays perfectly over the x axis.
So because of this "fence", the function is bounded below. It does not go forever in the negative y direction.
Final Answer: Choice B) Bounded below