What frequency is monitored by the leading ship?

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The discussion revolves around calculating the frequency monitored by a leading ship as a trailing vessel transmits a sonar signal. The trailing ship moves at 64.0 km/h and the leading ship at 45.0 km/h, both affected by a westward ocean current of 10.0 km/h. The effective speeds relative to the medium are 74 km/h for the trailing ship and 55 km/h for the leading ship. Participants suggest using the Doppler effect to solve the problem and encourage sharing specific difficulties encountered. The conversation emphasizes the importance of understanding the underlying principles to resolve the frequency calculation.
jpnnngtn
This problem here is rather tough (to me). Perhaps you can help:

Two ships are moving along a line due east. The trailing vessel has a speed of 64.0 km/h relative to a land based observation point, and the leading ship has a speed of 45.0 km/h relative to the same station. The two ships are in a region of the ocean where the current is moving uniformly due west at 10.0 km/h. The trailing ship transmits a sonar signal at a frequency of 1200 Hz. What frequency is monitored by the leading ship? (Use 1520 m/s as the speed of sound in the ocean)
 
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Hi,

As per Forums policy, I need you to show me how you started and where you got stuck.

Thanks,
 
Hi jpnnngtn,
you have probably already found out that the ships' speeds relative to the medium are 74 km/h and 55 km/h respectively. I think you should look up 'Doppler effect' in your script/book, and see where that gets you. If you are still stuck, then please tell us what the difficulty is.
 
I stayed up and solved this one last night. I think i just needed to take a break and come back to it later.
 

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