Answer:
The equation would be A = .03p
Step-by-step explanation:
To create this model, we know that we need to multiply the percentage by the current population. So we would multiply 3% or .03 by the variable given. You can set that equal to anything. I picked A for amount.
Answer:
$203.00
Step-by-step explanation:
Since the bank in question compounds interest just once, and this is a one year investment, it can be treated as a simple rate interest problem. Therefore, the total balance after one year (B) is given by the following formula:
![B= 200*(1+i)\\B= 200*(1+0.015)\\\\B= 203](https://tex.z-dn.net/?f=B%3D%20200%2A%281%2Bi%29%5C%5CB%3D%20200%2A%281%2B0.015%29%5C%5C%5C%5CB%3D%20203)
April's balance would be $203.00 after one year.
The first two graphs are D) and D).
For the last one (above), the triangles are not congruent (D), because C --> C' doesn't follow the same translation rule as A, B --> A', B'
One ratio is 30:40 since 15 times 2 is 30 and 20 times 2 is 40.
The parentheses because it should be PEMDAS which is Parentheses,Exponents,Multiplication,Division,Addition, and Subtraction