Electronics Handbook/Matter and Electricity/Conductor and Electricity
Conductor and Electricity
editNormally, Charges in Conductor drift randomly . When an Electric Source is connected to a conductor, The Electric Force will exert a Pressure on the charges to force charges to move in straight line causing a Current inside the conductor . The Pressure of the Electric Source is called Voltage
Voltage
editVoltage is defined as The pressure of the Electricity Force to make charges in the conductor to move in straight line and calculated by the ratio of Work Done on an Electric Charge . Voltage is denoted as V measured in Volt v .
Current
editCurrent is defined as number of electric charges flow through an area of conductor in a period of Time . Current is calculated by the ratio of Electric Charge on Time . Current is denoted as I measured in Ampere A
Energy
editPower is defined as Energy of a Work over Time. Power is calculated by the product of Voltage and Current . Power is denoted as P measured in Joule J or Volt Amp VA
- 1 J = 1v x 1A
Conductance
editConductance is defined as the ratio of Current over Voltage . Conductance is denoted as Y measured in Siemen 1 / Ω
Resistance
editResistance is defined as the ratio of Voltage over Current . Resistance is denoted as R measured in Ohm
Resistance
editResistance & Temperature
editIt's been observed that Resistance of a conductor changes with change in Temperature
- R = Ro + nT For Conductor
- R = Ro enT For Semi Conductor
Resistance & Electric Power Loss
editAlso, When conductor of resistance R conducts current . Conductor releases Heat Energy into the surrounding result in loss of Electric Power Energy directly proportional to the resistance of the conductor
Energy Supply , Loss and Deliver
editThe Energy supplies to the conductor
The Energy loss as Dissipated Heat
The Energy Delivered without loss
Energy transfer Efficiency
editThe efficiecy of Power transmission can be calculated as the percentage of Real Power over the Supplied Power