Answer:
$28,188.46
Step-by-step explanation:
The formula you need is:
Where A(t) is the amount after the compounding, P is the initial investment, r is the interest rate, n is the number of compoundings per year, and t is the time in years. We are looking for A(t). P is $14,250; r in decimal form is .0525; n is 52 since there are 52 weeks in a year; t is 13 years. Filling in:
Simplifying inside the parenthesis and the exponential multiplication:
Raising the number in parenthesis to the power of 676 gives us:
A(t) = 14,250(1.978137432)
Multiplying then gives us $28,188.46
Answer:
Step-by-step explanation:
the bearing of A from B is 065º. ... A boat sails from a
Answer: ( -∞ , - 21 )
Step-by-step explanation:
Let the number be x , so from the question , we have
5(x+27) ≥ 6 ( x + 26 )
expanding , we have
5x + 135 ≥ 6x + 156
5x - 6x ≥ 156 - 135
- x ≥ 21
Therefore :
x ≤ - 21
So , the numbers less or equal to -21 are -21 ,-22 , -23 ...
so the solution set is ( - ∞ , 21 )
Answer:
see attached
Step-by-step explanation:
My choices are shown with green check marks.
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An odd-degree polynomial cannot have a global maximum.
You can write a polynomial in intercept form with complex values:
(x-i)(x+i) = 0
An even degree polynomial does not necessarily have any real roots:
x^2 +2 = 0
<h3>
<u>Answer:</u></h3>
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<u>Step-by-step explanation:</u></h3>
Given that the nth term of the Arthemetic Sequence is given by :-
And we need to find the 22nd term .
So in place of n substitute 22 .
<h3>
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