Answer:
Part a
For this case n = 4. If we use the future value formula we got:
Part b
For this case n = 365. If we use the future value formula we got:
Step-by-step explanation:
We can use the future vaue formula for compound interest given by:
Where P represent the present value, r=0.0675 , n is the number of times that the interest is compounded in a year and t the number of years.
Part a
For this case n = 4. If we use the future value formula we got:
Part b
For this case n = 365. If we use the future value formula we got:
If you estimate
7 times 7=49 so the square root of 46 is less than 7
6 times 6= 36 so the square root of 46 is more than 6
so if you do it on a calculator the answer is 6.78
Solution: Scatter plot is a graphical tool to determine the strength of linear relationship between the dependent and independent variables. In the scatter plot, the dependent variable is taken along the y axis and independent variable along the x-axis. In our example, temperature is considered along x axis and rainfall along the y-axis. Each pair of observation of temperature and rainfall is represented by a dot on the scatter plot.
Answer:
so we know that we're starting with $2500. We know it's compound a continuous interest, and they tell us that the interest rate is 6% and we want to find the amount of time it's going to take for it to basically double because it says 5000. So we divide both sides by five Excuse me by 2500 and we end up with E to the 0.6 T is equal to two. We can take the natural log of both sides mhm, and we can use a log of a powers at this point. Oh, 60 can come down in front with log of a power and lo and behold Oh, my goodness, Ellen up e is one. So all we need to do to solve is divide both sides by 0.6, and that will give us our time. We need to round that off to the nearest 10th of a year. So Ln of two divided by 20.6 11.6 11.55 But to the nearest Tampa would be 11.6 years. And we are done. Mm hmm.
Step-by-step explanation:
Answer: the width is 7 centimeters
Step-by-step explanation:
