Given the following set of x, y points 2.0 7.5 4.5 7.1 5.5 6.0 7.0 5.9 8.0 4.3 9.5 3.5 11.0 3.2 1...
date value (Y) date value (X) date value (X) 01/01/1999 1.8 01/01/1999 3.5 01/01/1999 6.7 01/01/2000 1.7 01/01/2000 3.5 01/01/2000 6.3 01/01/2001 2.3 01/01/2001 4.2 01/01/2001 7.2 01/01/2002 2.9 01/01/2002 5.3 01/01/2002 8.4 01/01/2003 3.1 01/01/2003 5.5 01/01/2003 8.8 01/01/2004 2.7 01/01/2004 5.0 01/01/2004 8.5 01/01/2005 2.3 01/01/2005 4.7 01/01/2005 7.6 01/01/2006 2.0 01/01/2006 4.3 01/01/2006 6.8 01/01/2007 2.0 01/01/2007 4.4 01/01/2007 7.1 01/01/2008 2.6 01/01/2008 5.7 01/01/2008 9.0 01/01/2009 4.6 01/01/2009 9.7 01/01/2009 14.7 01/01/2010 4.7 01/01/2010 10.3 01/01/2010...
(I) Let's start with very simple data table 1.0 2.0 3.0 4.0 5.0 6.0 -1 ± 1.8 4±2.0 9+ 1.0 14 + 0.8 19 s 0.8 24 + 1.2 2% 1.8 34 ± 2.0 7.0 8.0 9.0 1. Plot a graph of y vs. X on a piece of graph paper 2. Is it a straight line? Draw the best-fit line. 3. Compute the slope and y-intercept for this line. Write the equation for y in terms of x using...
4.3 Analysis Assignment #4 Note 1: all assignments moving forward must adhere to the appropriate Six Step Process (SSP). As our study materials have specified, the SSP has 3 versions. Version 1 is to be used for all t-tests; for all correlation analyses and Version 3 is be used for all regression analyses. Note 2: The data sets for Q1, Q2 and Q3 below can be downloaded here. Week 4 Analysis Assignments.xlsx Q1: (30 points) Complete the following data analysis:...
Please help with solving Question 1 (A-C) Thank you!
Unless otherwise specified in the problem, you may assume that all solutions are at 25°C. 1. 50.0 mL of a pH 6.00 carbonic acid buffer is titrated with 0.2857 M NaOH, requiring 17.47 mL to reach the second equivalence point. a. Calculate the molarity of carbonic acid and bicarbonate in the original buffer. Carbonic acid: Bicarbonate: b. Calculate the pH of the solution after a total of 100.0 mL of 0.2857...