Q1. The circuit of Figure 1 has a source of 240V and source, line and load impedances according to the table below. Source 1+j1.XY 2+j2.XYQ Line Load | 7+j5.XY Q Where X and Y are the last 2 digits of your student number. For example: If your number is C1700123, then Source = 1+j1.230, Line = 2+j2.230, Load = 7+j5.239 If your number is C1700100, then Source = 1+j1.000, Line = 2+j2.000, Load = 7+j5.00 Vload Source Line Load M voo 000 Figure 1 a) Find the current delivered by the source. Express in both polar and rectangular form. b) Calculate the power factor of each section (source, line and load) and the full system. c) Calculate the voltage across the load (Vload) d) Design a series reactive compensation scheme to bring the system power factor to unity. Calculate the new voltage across the load, Vload- e) Apart from reactive compensation, suggest an alternative method to

X=0 

Y=6

Can you please help me with questions a,b and c

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Q1. The circuit of Figure 1 has a source of 240V and source, line and load impedances according to the table below. Source 1+j1.XYQ2 2+j2.XYQ Line Load | 7+j5.XY Ω Where X and Y are the last 2 digits of your student number. For example: If your number is C1700123, then Source = 1+j1.230, Line = 2+j2.230, Load = 7+j5.23 Q If your number is C1700100, then Source = 1+j1.000, Line = 2+j2.000, Load = 7+j5.00 Ω load Source Line Load voo 000 -000 Figure 1 a) Find the current delivered by the source. Express in both polar and rectangular form. b) Calculate the power factor of each section (source, line and load) and the full system. c) Calculate the voltage across the load (Vload) d) Design a series reactive compensation scheme to bring the system power factor to unity. Calculate the new voltage across the load, Vload- e) Apart from reactive compensation, suggest an alternative method to improve the regulation of the system. Comment on the economic factors you would consider when deciding the best option.