Answer:
Ending balance after 2 years=$4,370.98
Step-by-step explanation:
To calculate her ending balance after two years, we need to get the express the total amount as follows;
A=P(1+r/n)^nt
where;
A=Total future value of the initial investment
P=Initial value of the investment
r=Annual interest rate
n=number times the interest rate is compounded annually
t=number of years of the investment
In our case;
P=$4,111
r=3.07%=3.07/100=0.0307
n=12
t=2 years
Replacing;
A=4,111(1+0.0307/12)^(12×2)
A=4,111(1.0026)^24
A=4,370.98
Ending balance after 2 years=$4,370.98
We know that this is a right triangle, so one of the sides has to be 90 (indicated by the square on the corner) The angles of all triangles must add to exactly 180. Subtract 90 and 35 from 180
If we do that, we get 55. We know that the unknown angle is 55 now. Now, it asks us for b. We can pythagoras theorem which states that (a^2 + b^2 = c^2) We already know c (c is 20) It does not tell us 2 of the sides but we do know that the answer is either B or D.
The side opposite of 90* should be the largest. The size opposite of 55 would be the second largest one. The side opposite of 35 would be the smallest one. Using pythagoras theorem again, I can try plugging in both 11.47 and 16.38 with c^2 - b^2 = a^2
11.47:
400 - 132 =268 (sq root now = 16.37) this would mean that A is larger than B. B should be larger than A. Try the other one
16.37:
400 -268 = 132 (sq root = 16.37) this would mean that B is larger than A which is what we want.
Thus, 16.37 = B and the last option would be correct (D)
Hope this helps, give an honest rating for me please
Answer:
yes
Step-by-step explanation:
Answer:
Well, we have 4 cubes on one side and 3 triangles on the other.
The relationship would be 4:3
Hope this helped!
