QUESTION ONE: A kerosene sample has the following AStm D 36, TaP, and 56 distribution alars. distillation curve. 1. Convert ASTM D 86 distillation curve to TBP by Riadi - Daubert and Daubert's (AP4 methods. 2. Draw actual TBP and predicted TBP curves on a single graph in " C C 3. Assume ASTM temperatures at 30, 50, and 7o\%s points are the onily inown information Based these data points on the distillation curve predict the entire distllation curre and compare the actual values in both tabulated and graphical forms. 4. Calculate the Watson K factor. QUESTION ONE: A kerosene sample has the following AStm D 36, TaP, and 56 distribution alars. distillation curve. 1. Convert ASTM D 86 distillation curve to TBP by Riadi - Daubert and Daubert's (AP4 methods. 2. Draw actual TBP and predicted TBP curves on a single graph in " C C 3. Assume ASTM temperatures at 30, 50, and 7o\%s points are the onily inown information Based these data points on the distillation curve predict the entire distllation curre and compare the actual values in both tabulated and graphical forms. 4. Calculate the Watson K factor