After the last step, you have to plug x into the equations. 5(5)+8=33 and 8(5)-1=39. You do this because it asks you to find the measurements of the angles, meaning the whole thing, not just x. To check, you add the two values of EFG and EFH, and they should equal EFG. 33+39=72, so it all checks out!
We start by put the first period in ascending order as shown in diagram below
The measurement of center can use either Mean, Median (Q2), Mode, Range or Interquartile range
The Median, Q2, is the value between 2 and 3 which is 2.5
The mean of the data is the sum of data divided by the number of data = 2.8
The mode of the data is the most frequent value which is the 1, 2, 3, and 4
The range of the data is the difference between the first and the last value which is 8
The interquartile of data is the difference between Q3 and Q1 which is 3
Since the data is widely distributed with a range of 8, hence the best measure of center is the mean since the calculation takes all values within the range
Answer: 3
Explanation:
The polynomial is:
(1)
We want to factorize it as follows:
where C is the unknown number we want to find.
Solving explicitely the last equation,
(2)
We want eq.(2) to be identical to eq.(1). From the last term, we see immediately that it must be C=3, and 2+C=5. So the missing number is 3, and the factorization is
Answer:
<h2>
C)1.5</h2>
Step-by-step explanation:
Since a cube is a three dimensional solid with square faces, the distance from center of the cube to the base of the cube is the same as half any one of its sides (all sides in a cube having the same length).
If we consider the length of the side to be a, then formula for volume of a cube is:
V=a³
27=a³
Find the cube root on both sides.
3×3×3=a×a×a
3=a
Since the length of the side is 4, the distance from the center of the cube to the base of the cube is
3/2=1.5
