PROBLEM 3: A radio signal of 60 MHz frequency is being transmitted by a transmitter with 1 kW output power. The field strength from transmitting antenna is 2.5 times as that of half wave antenna. The height of the transmitting and receiving antennas are 50 m and 5 m respectively. If minimum field strength required at the receiving antenna is 80 µV/m then calculate the distance between transmitter and receiver.
PROBLEM 3: A radio signal of 60 MHz frequency is being transmitted by a transmitter with 1 kW output power. The field strength from transmitting antenna is 2.5 times as that of half wave antenna. The height of the transmitting and receiving antennas are 50 m and 5 m respectively. If minimum field strength required at the receiving antenna is 80 µV/m then calculate the distance between transmitter and receiver.
Operations Research : Applications and Algorithms
4th Edition
ISBN:9780534380588
Author:Wayne L. Winston
Publisher:Wayne L. Winston
Chapter23: Simulation With The Excel Add-in @risk
Section23.4: Reliability And Warranty Modeling
Problem 3P
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![PROBLEM 3: A radio signal of 60 MHz frequency is being transmitted by a transmitter
with 1 kW output power. The field strength from transmitting antenna is 2.5 times as that
of half wave antenna. The height of the transmitting and receiving antennas are 50 m and
5 m respectively. If minimum field strength required at the receiving antenna is 80 µV/m then
calculate the distance between transmitter and receiver.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8678624c-d3b7-40b5-994f-636dfcb4e612%2F01bb91ca-c083-4b2a-abce-1a04a4ba839f%2Flqvzcbg_processed.jpeg&w=3840&q=75)
Transcribed Image Text:PROBLEM 3: A radio signal of 60 MHz frequency is being transmitted by a transmitter
with 1 kW output power. The field strength from transmitting antenna is 2.5 times as that
of half wave antenna. The height of the transmitting and receiving antennas are 50 m and
5 m respectively. If minimum field strength required at the receiving antenna is 80 µV/m then
calculate the distance between transmitter and receiver.
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