.9x-2.1+.9=.2(5-x) multiply .2(5-x)
.9x-2.1+.9=1-.2x; add - 2.1 + .9
.9x-1.2=1-.2x; cancel -2x by adding it by itself and add it on the .9x
1.1x-1.2=1; cancel -1.2 by adding it by itself and add it on the 1
1.1x=2.2; divide 1.1 so it can be canceled and then on 2.2
x=2 :)
Answer:
7 lb for $9.45
Step-by-step explanation:
12.75 / 9 = 1.42
4.34 / 2 = 2.17
9.45 / 7 = 1.35
6.26 / 4 = 1.57
The lowest answer is 7 lb for $9.45
Found a similar question on the Internet. Their answer is - The light that a star actually gives off is the apparent magnitude. Upon further research, apparent magnitude term is used by astronomers to describe how bright a star is or any celestial object as seen by an observer on Earth. There's also what they call as absolute magnitude. It represents how bright a star would look like if it were 10 parsecs or 3.26 light years<span> </span>away from the Earth.
What are you looking for? x/y intercepts? solving for x or y?
6 hrs - (4 hrs 37 minutes + 75 minutes) =
360 minutes - (240 minutes + 37 minutes + 75 minutes) =
360 minutes - 352 minutes =
8 minutes to spare <==
