Answer:
The vertex for each quadratic is 
Step-by-step explanation:
To determine the vertex for each quadratic,
The vertex of the 
coordinate can be determined using the formula,
The standard form of the quadratic function is
Hence, for the given equation of the quadratic function,
and 
Hence, 
becomes,
∴
This is the vertex for the 
To determine, the vertex for the 
We will put the value of the vertex of the in the equation and write
Then,
This the vertex for the
Hence,
Answer:
-9u^7v - 6u^5v - 21u^2v
Step-by-step explanation:
Answer:
1. 11t
2.7w+28
3. 2c+11
4. 8n
5. 10r+15
6. 24−8g
7. 17d−9
8. 8g+7z
9. 23b
10. 2rs+1
11. 9f+9g
12. 4x+y
13. 21a+14
14. 21a+14
15. 6−3k
16. 18n+36
17. 9s+3t
18. 8a−12b
19. 11m+n
20. 2+6z
21. 8x+6y
22. 7hg−7
23. 4st+5
24. 2r+17
25. 7w+6
26. 3(c+2)
27. 8f−4g
28. 2+8q+3r
Step-by-step explanation:
there you go, sorry it took so long
Answer:
(-6,-4)
Step-by-step explanation:
So there actually is really easy way to solve this problem(that many people will never teach you for some weird reason).
Find difference between two points first in x and y direction.
X difference = (-3 - (-8)) = 5
Y difference = (-1 - (-6)) = 5
Multiply 2/5 to each difference
X difference 5 * 2/5 = 2
y difference 5* 2/5 = 2
just add the two number to First point(point A)
-8 + 2 = -6
-6 + 2 = -4
(-6,-4)
