Answer:
58 at the point (9,8)
7 at the point (1, 1)
Step-by-step explanation:
The maximum points will be found in the vertices of the region.
Therefore the first step to solve the problem is to identify through the graph, the vertices of the figure.
The vertices found are:
(1, 10)
(1, 1)
(9, 5)
(9, 8)
We look for the values of x and y belonging to the region, which maximize the objective function . Therefore we look for the vertices with the values of x and y higher.
(1, 10), (9, 5), (9, 8)
Now we substitute these points in the objective function and select the one that produces the highest value for f (x, y)
The point that maximizes the function is:
with
Then the value that produces the minimum of f(x, y) is (1, 1)
Answer: 40
Step-by-step explanation:
2x=(360/4)
2x=(80)
80/2=40
x=40
Hope this helps!
Answer:
C) SSA is NOT a congruent postulate to prove any two triangles congruent to each other.
Step-by-step explanation:
Two Triangles are said to congruent if three sides of one triangle is equal to the 3 corresponding sides of other triangle and 3 angles on one triangle is equal to other 3 corresponding angles.
Two triangles can be proved congruent to each other by
A. SSS (SIDE SIDE SIDE) Postulate
Here, the threes sides of one triangle is equal to the 3 corresponding sides of the other triangle.
B. SAS (SIDE ANGLE SIDE) Postulate
Here, the two sides and any one angle of one triangle is equal to the two corresponding sides and one angle of the other triangle.
C. ASA ( ANGLE SIDE ANGLE) Postulate
Here, the two angles and the included angle of one triangle is equal to the two corresponding sides and included angle of the other triangle.
Hence, from the above option SSA is NOT A congruent postulate to prove any two triangles congruent to each other.