Answer:
Step-by-step explanation:
The center of dilation is a fixed point on a plane. It is the starting point from which we measure distances in a dilation
Is this connections academy ?
Answer:
b) 40 fishing lures and 20 duck decoys
c) 20 fishing lures and 24 duck decoys
Question:
Attached is the graph to be used to answer the questions.
Step-by-step explanation:
b) Any point above the straight line graph PPF is unobtainable, while points below or on the line graph are obtainable.
Finding each of the points on the graph and determine whether it is above, on or below the line graph.
- Only one point is above the graph (40 fishing lures and 20 duck decoys )
Therefore, 40 fishing lures and 20 duck decoys is unobtainable.
c) for an efficient combination the points must be on the line of the graph (PPF).
The only point that falls on the line of the graph is (20 fishing lures and 24 duck decoys)
Therefore, 20 fishing lures and 24 duck decoys is an efficient combination.
Answer:
x= 14
Step-by-step explanation:
First (and only) we subtract 17 from both sides :
17 + x - 17 = 31 - 17
x = 31 - 17
x = 14
Hope this helped and have a good day
A.) The y-intercept of g(x) is less than the y-intercept of f(x). Let's check this out: the y-int. of g(x) is -8, whereas the y-int. of f(x) is -4. Is this statement true or false? Is -8 < -4?
B) The y-intercept of g(x) is equal to the y-intercept of f(x). See comments for (A), above. False.
C) The x-intercept of g(x) is equal to the x-intercept of f(x). Here we have to check out the table. We see that x=16 when y=0, so the y-int. of f(x) is (16,0). The x-intercept of 4√x - 8 =g(x) is the value of x at which 4√x - 8= 0. This is (4,0). Thus, the 2 y-intercepts are not the same.
D) "The x-intercept of g(x) is greater than the x-intercept of f(x)." See (C), above. For g(x) the x-int. is (4,0) and for f(x) the x-int. is (16,0).
