The number of orders in is equal to the number of orders out in month 4 (April). It appears the solution represents the time at which warehouse shipments caught up with order quantities.
_____
For this table to make any sense, we have to assume that the year started with 3 orders in January, and that one order was shipped in January. Then the number of orders was 1 or 2 each month after that, and the number of orders shipped per month was 2 each month after that. That is, the tables represent year-to-date totals of orders in and out.
<em>Alternate Interpretation</em>
If the numbers here are actual orders in and out in each of the listed months, it appears the warehouse is getting better at shipping orders. That is, they are increasing the shipment rate by 2 orders a month each month. They will eventually ship enough to cover the total number of orders in (total of 20 by April), but total shipments through April only amount to 16 orders.
Answer:
144
Step-by-step explanation:
so if we have 120 and we need to find out what the original prices we could add 20% of 120 which will get us to 144
They are not similar because BR: DB is 1:2 and KE:YK is 1:3. This is due because of the slope, the slope of KE:YK is 9/3 or 3/9 which is equal to 1:3 and the slope for BR:DB is 2/4 or 4/2 which is how you get the ratio of 1:2.
Answer:
x= 127/2
Step-by-step explanation:
Let's solve your equation step-by-step.
(x−3)(2)+4=125
Step 1: Simplify both sides of the equation.
(x−3)(2)+4=125
(x)(2)+(−3)(2)+4=125(Distribute)
2x+−6+4=125
(2x)+(−6+4)=125(Combine Like Terms)
2x+−2=125
2x−2=125
Step 2: Add 2 to both sides.
2x−2+2=125+2
2x=127
Step 3: Divide both sides by 2.
2x/2 = 127/2
x=127/2
Please mark brainliest :)
Answer:
Composite
Step-by-step explanation:
That number is composite. The definition of prime is a number whose two factors are one and itself. If it has two, it must be composite, because that is not one OR itself
