s = hours it takes the small pipe on its own.
L = hours it takes the large pipe on its own.
we know the small pipe can do it in 11 hours total, so s = 11, so, how much of the whole job has the small done in 1 hour only?
well, if it takes 11 hours to do the whole thing, in 1 hour it has done only 1/11 of the whole job.
we know both pipes working together can do it in 6 hours flat. So in 1 hour only, both of them have done only 1/6 of the whole thing.
in that 1 hour, how much has the large one done? well, it has only done 1/L of the job.
and you can round that up as needed.
Answer:20c^4d^7
Step-by-step explanation:
4cd*5c^3 d^6
20cdc^3 d^6
20c^1 dc^3 d^6
20c^1 d^1 c^3 d^6
=20c^4d^7
Answer:
just ignore this whole thing
<h2><em>B. Six Thousandths is your answer. The Six is in the thousandths place.</em></h2>
yea it is because when u set it up 3/8=12/32
I put the x in the 32's spot
then I completed the procedure by multiplying straight across to the two numbers across from each other 8*12= 96 then u take the number across from the x and divide so it would be 96 /3 = 32 which states tht they r equivalent