The MAJORANA Demonstrator is a germanium detector enriched with 30 kilograms of Ge-76. It is located underground in the Sanford Underground Research Facility and is currently searching for the characteristic 2039 KeV signal of neutrinoless double beta decay in Ge-76. However, the signal is so weak that very low background electromagnetic noise levels are needed. This electromagnetic noise could come from common things in the lab such as turning on a power supply or a 16MHz clock in a cart for our electronics. In order to monitor and track noise in and around the MAJORANA Demonstrator, I employed the use of software defined radio (SDR) along with code that performs an FFT on data coming from the Germanium detectors. By running the FFT code and SDR together, we can see what noise can pass through our shielding or pass into our electronics and pollute signals. Furthermore, we can analyze which frequencies are noisiest and see if there is any pattern to the noise in our data. We could then determine where the noise was emanating from by seeing what in the lab changed when the noise was present in our signal. We ran the SDR and FFT code simultaneously and could detect a radio transmitter’s signal at 50MHz in the Ge detector data and SDR when we turned the radio transmitter on and off. The success of the SDR-FFT system has shown its implementation in the MAJORANA lab in Lead, SD will be useful in tracking and monitoring noise sources.