If we assume that the annual return on common stocks are normally distributed, then approximately 95%...

Suppose the returns on an asset are normally distributed. Suppose the historical average annual return for...

Suppose the returns on an asset are normally distributed. Suppose the historical average annual return for the asset was 5.6 percent and the standard deviation was 10.3 percent. What is the probability that your return on this asset will be less than –2.5 percent in a given year? Use the NORMDIST function in Excel® to answer this question. What range of returns would you expect to see 95 percent of the time? What range would you expect to see 99...

Suppose the returns on Asset Y are normally distributed. The average annual return for this asset...

Suppose the returns on Asset Y are normally distributed. The average annual return for this asset over 50 years was 13.4 percent and the standard deviation of the returns was 23.5 percent. Based on the historical record, use the cumulative normal probability table (rounded to the nearest table value) in the appendix of the text to determine the probability that in any given year you will lose money by investing in common stock. What is the probablility of a return...

Suppose the returns on an asset are normally distributed. The average annual return for the asset...

Suppose the returns on an asset are normally distributed. The average annual return for the asset over some period was 6.6 percent and the standard deviation of this asset for that period was 9.0 percent.    Based on this information, what is the approximate probability that your return on this asset will be less than -3.1 percent in a given year?            What range of returns would you expect to see 95 percent of the time?            What...

Suppose the returns on an asset are normally distributed. The historical average annual return for the...

Suppose the returns on an asset are normally distributed. The historical average annual return for the asset was 5.9 percent and the standard deviation was 10.5 percent. a. What range of returns would you expect to see 95 percent of the time? (A negative answer should be indicated by a minus sign. Enter your answers for the range from lowest to highest. Do not round intermediate calculations and enter your answers as a percent rounded to 2 decimal places, e.g.,...

The annual returns on Googol's stock share for the last four years were Normally distributed and...

The annual returns on Googol's stock share for the last four years were Normally distributed and equalled: 16 %, 8 %, -17 %, and 21 %, respectively. Using this information you can say that 95 % of the time the return over one year period lies in the following range: Multiple Choice between -50.54 % and 57.61 % between -47.68 % and 54.68 % between -26.74 % and 40.74 % between -9.87 % and 23.87 %

Assume that the historical average return on Canadian common stocks between 1957 and 2019 is 10.29%,...

Assume that the historical average return on Canadian common stocks between 1957 and 2019 is 10.29%, with a standard deviation of 16.41%. This tells us that if we bought Canadian stocks during this period, we would expect our returns to be lower than –6.12% or higher than 26.70% in one year out of every Select one: a. two. b. three. c. four. d. five. e. six.

If returns of​ S&P 500 stocks are normally​ distributed, what range of returns would you expect...

If returns of​ S&P 500 stocks are normally​ distributed, what range of returns would you expect to see​ 95% of the​ time? Base your answer on the information below. Small Stocks, ​S&P 500, Corporate Bonds, ​T-Bills, (Average Return): 18.52​%, 11.61​%, 6.02​%, 4.77​% (Standard Deviation of returns): 38.52​%, 20.49​%, 7.28​%, 3.74​% The​ 95% prediction interval of the​ S&P500 is between ___​% and ___%. ​(Round to two decimal places and put the lower number​ first.)

Suppose the returns on long-term corporate bonds are normally distributed. The average annual return for long-term...

Suppose the returns on long-term corporate bonds are normally distributed. The average annual return for long-term corporate bonds from 1926 to 2007 was 5.2 percent and the standard deviation of those bonds for that period was 9.4 percent. (a) Based on this historical record, what is the approximate probability that your return on these bonds will be less than -2.9 percent in a given year? (Do not round intermediate calculations.) 18.47% 20.22% 19.44% 38.88% 20.41%      (b) What range of...

Assume that the returns from an asset are normally distributed. The average annual return for this...

Assume that the returns from an asset are normally distributed. The average annual return for this asset over a specific period was 14.7 percent and the standard deviation of those returns in this period was 43.59 percent. a. What is the approximate probability that your money will double in value in a single year? (Do not round intermediate calculations and enter your answer as a percent rounded to 2 decimal places, e.g., 32.16.) b. What about triple in value? (Do...

The annual coffee expenditures for households are approximately normally distributed with a mean of $ 48.57...

The annual coffee expenditures for households are approximately normally distributed with a mean of $ 48.57 and a standard deviation of $ 10.00 . a. Find the probability that a household spent less than ​$25.00. b. Find the probability that a household spent more than ​$55.00. c. What proportion of the households spent between ​$30.00 and ​$40​.00? d. 95​% of the households spent less than what​ amount? a. The probability that a household spent less than ​$25.00 is?