Answer:
(0,1) and (-2,9)
Step-by-step explanation:
A point (x,y) lies on the graph of f(x) = 
if it satisfies the condition y =
<h3>
(0,1):</h3>
x = 0 and y = 1.
This point satisfies the required condition as
= 1
Hence, this point <u>is</u> on the graph of f(x) =
<h3>
(3,27):</h3>
x = 3 and y = 27.
This point doesn't satisfy the required condition as
= 
≠ 27
Hence, this point i<u>s not</u> on the graph of f(x) =
<h3>
(-2,9):</h3>
x = -2 and y = 9.
This point satisfies the required condition as
= 
= 9
Hence, this point <u>is</u> on the graph of f(x) =
<h3>
(-1,
):</h3>
x = -1 and y = .
This point satisfies the required condition as
y = 
= 
= 3 ≠
Hence, this point <u>is not</u> on the graph of f(x) =
The 4C matrix is obtained when all elements of matrix C are multiplied by 4. It <span>has all the same elements as C, only multiplied by 4.
Let's analyze all matrices
A. Not all elements of A can be divided by 4 (3 can not be divided by 4, the solution is not a whole number).
B. All elements of matrix B can be divided by 4, which means that B is a $C matrix (there is a matrix C which multiplied by 4 gives the matrix B).
C. Not all elements of C can be divided by 4.
D. Not all elements of D can be divided by 4.
Solution: B
</span>
An isosceles triangle is a special triangle having at least 2 equal sides equal. But in this case, since all sides are equal having a length of 15 inches, this is actually an equilateral triangle.
When you create a perpendicular bisector from the top vertex to the midpoint of the base, you get a right triangle with the hypotenuse equal to 15 inches, a base equal to half of 15 because it was bisected, and the height. Therefore, we use the pythagorean theorem. The solution would be
h = √(15)^2 +(15/2)^
h = 13.0 meters
27÷36=75
75% of the hats are baseball hats
