This is a geometric sequence since there is a common ratio between each term. In this case, multiplying the previous term in the sequence by <span>33</span> gives the next term. In other words, <span><span><span>an</span>=<span>a1</span>⋅<span>r<span>n−1</span></span></span><span><span>an</span>=<span>a1</span>⋅<span>r<span>n-1</span></span></span></span><span>.</span>
Answer:
The constraints are given as x ≤ 100 , y ≤ 400
Total number of incoming in the college = (x+ y)
Step-by-step explanation:
x = the number of out-of-state students and
y = the number in-state students
Number of out of state students that can be accepted = 100
So, the Number of in-state students that can be expected
= 4( out of state students)
= 4 x 100 = 400
So, the constraints are given as below,
x ≤ 100
and y ≤ 400
and total number of incoming in the college = (x+ y)
The formula of a slope:
Δy = 2
Δx = 1
Substitute:
<h3>Answer: 2</h3><h3 />
Other method.
The formula of a slope:
Find two points.
(0, 1) and (1, 3). Substitute:
<h3>Answer: 2</h3>
The first one is 9 and the second one is 8.
Answer:
x = 16.5
Step-by-step explanation:
2x + 3y = 73.50
5x + 2y = 109.50
(2x + 3y = 73.5) -5
(5x + 2y = 109.5) 2
-10x - 15y = -367.5
10x + 4y =219
-11y = -148.5
y = 13.5
2x + 3(13.5) = 73.50
2x + 40.5 = 73.5
2x = 73.5 - 40.5
2x = 33
x = 16.5
