The Doppler Effect

© 2020 Institute for Communications Engineering, Technical University of Munich
Authors: André Schulz, Benedikt Leible & Tasnad Kernetzky
Start position transmitter
$ S_{\rm x} = $ -150
$ S_{\rm y} = $ 0
Input parameters
Direction of movement
$ \varphi = $
Speed
$ v/c = $ 0.4
Transmitted frequency
$ f_{\rm S}/f_{\rm 0} = $ 1
Received frequency
Exact
Approximation
S
E
Control panel
Sender
Receiver
Right
Left
Output parameters
Angle (movement, S/E line)
$ \alpha = $
Doppler frequency
$ f_{\rm D}/f_{\rm 0} = $ 0.000
Received frequency
$ f_{\rm E}/f_{\rm 0} = $ 1.000
Exercises