Answer:
D.
Step-by-step explanation:
Answer:
13.
a. $300 interest paid (Total amount with interest - Initial amount)
b. $3300 total amount paid (Total amount with interest)
14.
a. $3360 total amount paid (Total amount with interest)
b. $140 paid monthly (3360 ÷ 24 (24 months in 2 years))
c. Credit card (3300 to pay versus 3360 to pay; credit card $60 cheaper)
Step-by-step explanation:
Use the simple interest formula when answering these questions:
A = P(1 + rt)
Where:
A = Total Accrued Amount (principal + interest)
P = Principal Amount
I = Interest Amount
r = Rate of Interest per year in decimal; r = R/100
R = Rate of Interest per year as a percent; R = r * 100
t = Time Period involved in months or years
For example:
13.
a. P = 3000, r = 20% = 0.2, t = 6 months = 0.5 years
A = 3000(1 + (0.2)(0.5))
A = 3300
3300 - 3000 = 300
$300 interest paid
Answer:
C $3 discount
Step-by-step explanation:
your welcome :)
Using conditional probability, it is found that there is a 0.1 = 10% probability that the chosen coin was the fair coin.
Conditional Probability
In which
- P(B|A) is the probability of event B happening, given that A happened.
is the probability of both A and B happening.
- P(A) is the probability of A happening.
In this problem:
- Event A: Three heads.
- Event B: Fair coin.
The probability associated with 3 heads are:
out of 0.5(fair coin).- 1 out of 0.5(biased).
Hence:
The probability of 3 heads and the fair coin is:
Then, the conditional probability is:
0.1 = 10% probability that the chosen coin was the fair coin.
A similar problem is given at brainly.com/question/14398287
Let’s start this off by assigning some variables. Let’s have q stand for the amount of quarters while n stands for the amount of nickels.
To start this problem, you need to utilize a system of equations. First, we know that there’s a certain number of quarters and a certain number of nickels and together there’s 63 quarters and nickels.
q + n = 63
We also know that there’s $13.15 in the jar. Since we know the value of the quarters and nickels, we can turn this into another equation.
.25q + .05n = 13.15
And there’s are two equations. Next, we have to solve for one of the variables. Either one works, but I’m going to be using q. I’m going to take the first equation since it’s easier to work with and isolate the q on one side by subtracting n from both sides.
q = 63 - n
Using that new definition for the q variable, we can substitute that into the second equation by replacing q there.
0.25(63 - n) + .05n = 13.15
Now we just need to simplify and solve for n. First we multiply both of the terms inside of the parenthesis by the .25 coefficient
15.75 - .25n + .05n = 13.15
Combine like terms
15.75 - .2n = 13.15
Add .2n to both sides to make the coefficient positive
15.75 = 13.15 + .2n
Subtract 13.15 from both sides to isolate the variable
2.60 = .2n
And finally divide both sides by .2 to solve for n.
13 = n
Now we have the amount of nickels that are in the jar. To solve for the amount of quarters is simple: Put the n value into the first equation and solve for q.
13 + q = 63
And then subtract 13 from both sides for the only step in solving for q.
q = 50.
Leaving us with a solution of 50 quarters and 13 nickels. Both of these variables can be inserted into the second equation to double check the work, but it comes out as even on both sides proving that this is the correct answer.
Hope this helped!
