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Problem 5 The following data are annual maximum floods Q (in m/s) for 7 years of...
Problem 5 The following data are annual maximum floods Q (in m/s) for 7 years of...
Problem 5 The following data are annual maximum floods Q (in m/s) for 7 years of record from 2005-2011. Using frequent factor method (parametric analysis), determine the 200-year flow assuming that the flows follow (a) log-normal distribution and (b) Log-Pearson Type III distribution YEAR 2005 2006 2007 2008 2009 2010 2011 Q (m/s) 2400 3093 1680 2640 3787 3360 3413
Problem 5 The following data are annual maximum floods Q (in m/s) for 7 years of...
Problem 5 The following data are annual maximum floods Q (in m/s) for 7 years of record from 2005-2011. Using frequent factor method (parametric analysis), determine the 200-year flow assuming that the flows follow (a) log-normal distribution and (b) Log-Pearson Type III distribution YEAR 2005 2006 2007 2008 2009 2010 2011 Q (m/s) 2400 3093 1680 2640 3787 3360 3413
The following data are annual maximum floods Q (in m/s) for 7 years of record from...
The following data are annual maximum floods Q (in m/s) for 7 years of record from 2005-2011. Using frequent factor method (parametric analysis), determine the 200-year flow assuming that the flows follow (a) log-normal distribution and (b) Log-Pearson Type III distribution YEAR 2005 2006 2007 2008 2009 2010 2011 Q (m/s) 2400 3093 1680 2640 3787 3360 3413
The mean temperature for the month of July in Boston, Massachusettsis 73 degrees Farenheit. Plot the following data, which represent the observed mean temperature in Boston over the last 20 years....
The
mean temperature for the month of July in Boston, Massachusettsis
73 degrees Farenheit. Plot the following data, which represent the
observed mean temperature in Boston over the last 20 years.
1998 7 999 69 2000 78 2001 70 2002 67 2003 74 2004 73 2005 65 2006 77 2007 71 2008 75 2009 68 2010 72 2011 77 2012 65 2013 79 2014 77 2015 78 2016 72 a. Is this a normal distribution? Explain your reasoning. b. What...
2 (a) The following data are annual maximum flood discharges for a river recorded over a...
2 (a) The following data are annual maximum flood discharges for a river recorded over a 10 year period YearDischarge (m3s-1 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 80 76 58 112 96 59 179 75 129 42 The return period may be determined from the Gringorten Formula R- (n + 0.12) (m 0.44) (i)Using a logarithmic scale for return period and linear scale for discharge, plot these data and estimate the 80-year return period flood discharge...
7. Study the table below and identify the following: a. years in which the economy expanded...
7. Study the table below and identify the following: a. years in which the economy expanded b. years in which the economy contracted c. peaks d. troughs Year 1998 Annual Percentage Change in Real GDP (2007 $) -3.1 2.6 5.7 5.2 2.8 4.6 Year 1982 1983 1984 1985 1986 1987 1988 1989 1990 1991 1992 1993 1994 1995 1996 1997 Annual Percentage Change in Real GDP (2007 $) 4.1 5.4 5.4 1.4 2.7 2.0 3.1 3.2 2.4 2.2 1.1 -2.9...
Use the data in the following table: Year End S&P 500 Index Dividends Paid* S&P 500...
Use the data in the following table: Year End S&P 500 Index
Dividends Paid* S&P 500 Realized Return Microsoft Realized
Return 1-Month T-Bill Return 2004 1211.92 2005 1248.29 23.15 4.90%
-0.90% 3.00% 2006 1418.3 27.16 15.80% 15.80% 4.80% 2007 1468.36
27.86 5.50% 20.80% 4.70% 2008 903.25 21.85 -37.00% -44.40% 1.50%
2009 1115.1 27.19 26.50% 60.50% 0.10% 2010 1257.64 25.44 15.10%
-6.50% 0.10% 2011 1257.61 26.59 2.10% -4.50% 0.00% 2012 1426.19
32.67 16.00% 5.80% 0.10% 2013 1848.36 39.75 32.40% 44.30% 0.00%...
Using the data in the table a. What was the average annual return of Microsoft stock...
Using the data in the table a. What was the average annual return of Microsoft stock from 2002-2014? b. What was the annual volatility for Microsoft stock from 2002-2014? Data Table Realized Return for the S&P 500, Microsoft, and Treasury Bills, 2002-2014 Microsoft S&P 500 Dividends S&P 500 Realized 1-Month Realized Return T-Bill Return Year End Index Paid* Return 2001 1148.08 - 22.1% 2002 879.82 14.53 22.0% 1.6% 2003 1111.92 20.80 28.7% 6.8% 1.0% 2004 20.98 10.9% 8.9% 1211.92 1.2%...
Problem 1 The yearly streamflow record of a stream and the corresponding average annual precipi- tation...
Problem 1 The yearly streamflow record of a stream and the corresponding average annual precipi- tation data from the basin are listed below. Assuming that these data have already been tested for consistency, determine the antecedent precipitation index that contributes to the runoff. Year: 1989 1990 1991 1992 1993 1994 1995 1996 Streamflow (m3/s) 1.00 1.25 0.50 0.25 3.0 1.26 0.90 2.45 Precipitation (mm) 600 740 500 450 870 640 770 730 Year: 1997 1998 1999 2000 2001 2002 2003...
Complete the questions below that are based on your chapter readings. Submit your answers in a M on Sunday of Unit 2 or as directed by your professor. ft Word document (no PDPs) by 11:00 p.m 1....
Complete the questions below that are based on your chapter readings. Submit your answers in a M on Sunday of Unit 2 or as directed by your professor. ft Word document (no PDPs) by 11:00 p.m 1. Consider the macroeconomic data shown Real GDP (billions of s output Gap Unemployment Rate |(% of labour force) ns YEAR Actual Potential 1192 2004 1188 1200 1209 1219 1226 1240 2009 1257 1251 1262 1274 (% of potential) 2003 11721 11.0 10.0 9.0...
Problem 5 The following data are annual maximum floods Q (in m/s) for 7 years of record from 2005-2011. Using frequent factor method (parametric analysis), determine the 200-year flow assuming that the flows follow (a) log-normal distribution and (b) Log-Pearson Type III distribution YEAR 2005 2006 2007 2008 2009 2010 2011 Q (m/s) 2400 3093 1680 2640 3787 3360 3413
Problem 5 The following data are annual maximum floods Q (in m/s) for 7 years of record from 2005-2011. Using frequent factor method (parametric analysis), determine the 200-year flow assuming that the flows follow (a) log-normal distribution and (b) Log-Pearson Type III distribution YEAR 2005 2006 2007 2008 2009 2010 2011 Q (m/s) 2400 3093 1680 2640 3787 3360 3413
The following data are annual maximum floods Q (in m/s) for 7 years of record from 2005-2011. Using frequent factor method (parametric analysis), determine the 200-year flow assuming that the flows follow (a) log-normal distribution and (b) Log-Pearson Type III distribution YEAR 2005 2006 2007 2008 2009 2010 2011 Q (m/s) 2400 3093 1680 2640 3787 3360 3413
The
mean temperature for the month of July in Boston, Massachusettsis
73 degrees Farenheit. Plot the following data, which represent the
observed mean temperature in Boston over the last 20 years.
1998 7 999 69 2000 78 2001 70 2002 67 2003 74 2004 73 2005 65 2006 77 2007 71 2008 75 2009 68 2010 72 2011 77 2012 65 2013 79 2014 77 2015 78 2016 72 a. Is this a normal distribution? Explain your reasoning. b. What...
2 (a) The following data are annual maximum flood discharges for a river recorded over a 10 year period YearDischarge (m3s-1 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 80 76 58 112 96 59 179 75 129 42 The return period may be determined from the Gringorten Formula R- (n + 0.12) (m 0.44) (i)Using a logarithmic scale for return period and linear scale for discharge, plot these data and estimate the 80-year return period flood discharge...
7. Study the table below and identify the following: a. years in which the economy expanded b. years in which the economy contracted c. peaks d. troughs Year 1998 Annual Percentage Change in Real GDP (2007 $) -3.1 2.6 5.7 5.2 2.8 4.6 Year 1982 1983 1984 1985 1986 1987 1988 1989 1990 1991 1992 1993 1994 1995 1996 1997 Annual Percentage Change in Real GDP (2007 $) 4.1 5.4 5.4 1.4 2.7 2.0 3.1 3.2 2.4 2.2 1.1 -2.9...
Use the data in the following table: Year End S&P 500 Index
Dividends Paid* S&P 500 Realized Return Microsoft Realized
Return 1-Month T-Bill Return 2004 1211.92 2005 1248.29 23.15 4.90%
-0.90% 3.00% 2006 1418.3 27.16 15.80% 15.80% 4.80% 2007 1468.36
27.86 5.50% 20.80% 4.70% 2008 903.25 21.85 -37.00% -44.40% 1.50%
2009 1115.1 27.19 26.50% 60.50% 0.10% 2010 1257.64 25.44 15.10%
-6.50% 0.10% 2011 1257.61 26.59 2.10% -4.50% 0.00% 2012 1426.19
32.67 16.00% 5.80% 0.10% 2013 1848.36 39.75 32.40% 44.30% 0.00%...
Using the data in the table a. What was the average annual return of Microsoft stock from 2002-2014? b. What was the annual volatility for Microsoft stock from 2002-2014? Data Table Realized Return for the S&P 500, Microsoft, and Treasury Bills, 2002-2014 Microsoft S&P 500 Dividends S&P 500 Realized 1-Month Realized Return T-Bill Return Year End Index Paid* Return 2001 1148.08 - 22.1% 2002 879.82 14.53 22.0% 1.6% 2003 1111.92 20.80 28.7% 6.8% 1.0% 2004 20.98 10.9% 8.9% 1211.92 1.2%...
Complete the questions below that are based on your chapter readings. Submit your answers in a M on Sunday of Unit 2 or as directed by your professor. ft Word document (no PDPs) by 11:00 p.m 1. Consider the macroeconomic data shown Real GDP (billions of s output Gap Unemployment Rate |(% of labour force) ns YEAR Actual Potential 1192 2004 1188 1200 1209 1219 1226 1240 2009 1257 1251 1262 1274 (% of potential) 2003 11721 11.0 10.0 9.0...
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