A line having a total resistance of `0.2` `omega` delivers `10 KW` at `220 V` to a small factory . Calculate the efficiency of transmission .
Text Solution
Verified by Experts
Power loss in the transmission line in the form of heat `P = I^(2) R= (P/V)^(2) R = ((20,000)/(220))^(2) xx 0.4` `= 3306 W = 3.31 kW` Efficiency of transmission line `eta = ("power delivered by line")/("power supplied to line")` `= ("power delivered")/("power delivered + power loss")` `= 20/(20+3.31) = 0.858 = 85.8%`
Topper's Solved these Questions
CURRENT ELECTRICITY
PRADEEP|Exercise Conceptual Problems|3 Videos
CURRENT ELECTRICITY
PRADEEP|Exercise Very short Q/A|7 Videos
COMMUNICATION SYSTEMS
PRADEEP|Exercise MODEL TEST PAPER-2|9 Videos
DUAL NATURE OF RADIATION AND MATTER
PRADEEP|Exercise Exercise|191 Videos
Similar Questions
Explore conceptually related problems
A line having a total resistance of 0.2Omega delivers 10kW at 220V to a small factory. Calculate the efficiency of the transmission.
A line having a total resistance of 0.5Omega deliver 15kW at 240 V to a small factory . The efficiency of transmission is :
An electrical power line, having a total resistance of 2Omega , delivers 1kW at 220 V. The efficiency of the transmission line is approximately :
A bulb of resistance 400 Omega is connected to 220 V mains. Calculate the magnitude of current.
An electric room heater has a resistance of 25 Omega and operates at 220 V for 12 minutes. Calculate heat energy dissapated by it in kilojoules.
A battery of 20 cells (each having e.m.f. 1.8V and internal resistance 0.1Omega is charged by 220 volts and the charging current is 15A. Calculate the resistance to be put in the circuit.
PRADEEP-CURRENT ELECTRICITY-Problems for Practice (B)
