So we are going to start out with $40,000 so if she gets a %3 increase every year.
1: $40,000
2: $41,200
3: $42,436
4: $43,709.08
5: $45,020.3524
6: $46,370.96
7: $47,762.0918612
8: $49,194.954617
9: $50,670.8032555
10: $52,190.9273532
11: $53,756.6551738
12: $55,369.354829
13: $57,030.4354738
14: $58,741.3485381
15: $60,503.5889942
16: $62,318.696664 <===
So your Answer would be <u>$62,318</u> (without any cents) If you need the cents i made a arrow on the One. Hope this helps :D
Answer:
Yes, the sum of any two lengths is greater than the third length
Step-by-step explanation:
we know that
The <u><em>Triangle Inequality Theorem</em></u> states that the sum of any 2 sides of a triangle must be greater than the measure of the third side
In this problem
Applying the Triangle Inequality Theorem
1) 9+5 > 8 ----> is ok
2) 8+5 > 9 ---> is ok
3) 8+9 > 5 ---> is ok
therefore
Yes, the sum of any two lengths is greater than the third length
Answer:
1/8 as a terminating decimal is 0.125
Answer:
The difference between the two is that in a dependent event an action will affect the ultimate outcome, but in an independent event an action won't affect the ultimate outcome. A way to tell is if the total number of the "item" at hand will be affected by the action the question is saying. In the case of the example given, that is a dependent event because the total of marbles you started with is changed due to you not replacing the one you first took. Therefore the probability is now different.
Step-by-step explanation:
