HP to Amps Conversion Formula with Calculation Examples

HP to Amps or Horsepower to amperes conversion formula can be used to determine the amperage of circuits from the known values of horsepower alongside with volts, percentage efficiency, and power factor (In AC Circuits) HP to Amps Conversion Formulae Video HP to Amps in DC Circuits Formula: Amps = (𝐇𝐏 𝐱 𝟕𝟒𝟔)/(𝐄 𝐱 %𝐄𝐟𝐟𝐢𝐜𝐢𝐞𝐧𝐜𝐲) … Read more

Power Transmission and Distribution Questions and Answers PDF Dowload

Power Transmission and Distribution Questions and Answers PDF Dowload by ElectricalEngineering.XYZ ElectricalEngineering.XYZ presents Power Transmission and Distribution Questions and Answers in PDF. Title: Power Transmission and Distribution Questions PDF Download Click here List of Questions: What is Power Transmission? What is Corona in Transmission Lines What is ACSR? What is Sag? What is an Insulator? … Read more

Reserve Capacity Formula with Solved Example


Reserve capacity of a power plant is defined as the Plant capacity minus maximum demand of the plant. Mathematically, Reserve capacity formula = Plant Capacity – Maximum Demand Numerical Problem The capacity of a power plant is 50 MW while the maximum demand of is 42 MW. Calculate the reserve capacity. Reserve capacity = Plant … Read more

kW to HP Conversion Formula with Solved Examples


kW to HP conversion formula with solved examples. kW to HP Conversion Video How to Convert kW to HP 𝟏 𝒌𝑾=𝟏.𝟑𝟒𝟏𝟎𝟐 𝑯𝑷 To convert kW to HP multiply by 1.34102 5 kW to HP 5 kW = 5 * 1.34102 = 6.7051 HP kW to HP Table kW (kilowatt) HP (Horsepower) kW HP 1 kW … Read more

Ohm’s Law Lecture Slides

In Ohm’s Law ElectricalEngineering.XYZ Lecture Slides you’ll learn: History of Ohm’s Law Statement of Ohm’s Law Circuit diagram of Ohm’s Law Formula of Ohm’s Law Ohm’s law in series circuits Ohm’s law in parallel circuits Ohm’s law graphical representation

Ohm’s Law – Ohms Law by ElectricalEngineering.XYZ


Ohm’s law was experimentally determined by George Simon Ohm: who determined that the amount of current transmitted along a wire is directly proportional to the cross-sectional area of the wire and inversely proportional to its length. Using these results he discovered and defined resistance and illustrated the relationship between voltage, resistance, and current. In this … Read more