Please show all work and steps and explanation !!!

Problem 1. Using IN4007 rectifier diodes (a real diode), design a rectifier circuit to convert 120 V rms (60 Hz) to a DC voltage of 9 V (maximum voltage) and ripple voltage of 0.5 V when it delivers 0.8 A to a load. You are free to choose By designing, we mean that you have to calculate the value for the capacitor a ratio of the primary to secondary winding of the transformer your own configuration. nd find what should be the Problem 2. Based on your design verify that IN4007 diode is a suitable choice that can tolerate PIV and is good for ip av and ip max. Search for the 1N4007 datasheet on line, download and print it. On the datasheet circle around the values related to PIV, ip av and ip max Problem 3. Search online and find the transformer and the capacitor of your design. Attach the spec sheet of the transformer Find the weight of the transformer Find the cost of components for your design Problem 4. If we want to get an output with less ripple we can add a voltage regulator between e load and the capacitor Assuming we add LM7805 to your design in Problem 1 What voltage would be available at the output of the regulator? If the input of the regulator has 0.5 V ripple, what would be the ripple at the output of the regulator? For 0.8 A to the load, how much would be the power dissipation on the regulator? Problem 1. Using IN4007 rectifier diodes (a real diode), design a rectifier circuit to convert 120 V rms (60 Hz) to a DC voltage of 9 V (maximum voltage) and ripple voltage of 0.5 V when it delivers 0.8 A to a load. You are free to choose By designing, we mean that you have to calculate the value for the capacitor a ratio of the primary to secondary winding of the transformer your own configuration. nd find what should be the Problem 2. Based on your design verify that IN4007 diode is a suitable choice that can tolerate PIV and is good for ip av and ip max. Search for the 1N4007 datasheet on line, download and print it. On the datasheet circle around the values related to PIV, ip av and ip max Problem 3. Search online and find the transformer and the capacitor of your design. Attach the spec sheet of the transformer Find the weight of the transformer Find the cost of components for your design Problem 4. If we want to get an output with less ripple we can add a voltage regulator between e load and the capacitor Assuming we add LM7805 to your design in Problem 1 What voltage would be available at the output of the regulator? If the input of the regulator has 0.5 V ripple, what would be the ripple at the output of the regulator? For 0.8 A to the load, how much would be the power dissipation on the regulator