Answer:
y(.82)*1.08
Step-by-step explanation:
You multiply by .82 to get the cost of the game after the discount and then by 1.08 to add the tax and total amount.
Answer:
The value of the printer on the first year was $ 23,750.00. On the second year it was $ 22,562.5. On the third year it was $ 21,434.38.
Step-by-step explanation:
Since the printer depreciates at a rate of 5% per year, I believe the stated equation is miss typed. Therefore I'll answer this with the correct equation that would represent that setting:
In the first year the value of the printer is:
On the second year the value of the printer is:
On the third year the value of the printer is:
The value of the printer on the first year was $ 23,750.00. On the second year it was $ 22,562.5. On the third year it was $ 21,434.38.
The Yule-Simon distribution is a discrete probability distribution. It is named after Udny Yule and Herbert A. Simon.
The Yule–Simon distribution was originally created by Yule as a limiting distribution model for a particular stochastic process, called the "Yule process" or the "preferential attachment process," in his study of the distribution of biological taxa and subtaxa.
The random variable X is said to have the Yule-Simon distribution if
P (X=k) = <u> 4 </u> where k = 1,2,...<u>
</u> k (k+1)(k+2)
The large square is 6 by 6 so it has area 6*6 = 36
The small square is 2 by 2 (since 6-2-2 = 2), so it has area 2*2 = 4
The difference in areas is 36 - 4 = 32 which is the area of the shaded region
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In summary:
1. The unshaded square (smallest square) has area 4 square inches
2. The area of the large square is 36 square inches
3. The shaded region (area of the frame) has area 32 square inches
n=8320987125437793528348710310901843271933297732006335848276356027645952000000000000
So you can see there are 12 zeros before you hit the first non-zero, which is 2.
