Chapter 7 Problems 6 & 7:
6. Design a notch filter that can remove a 60 Hz noise signal from an ECG signal
7. Explain how a differential amplifier can amplify the ECG signal while not amplifying the noise. Sketch how the patient is connected to the differential amplifier.
Chapter 12 Problems 6:
6. Compare amplifiers (in terms of amplification, bandwidth, and noise requirements) in ECG, EEG, and EMG measurements.
Chapter 13 Problems 1 & 8:
1. Identify and explain the noise in the following ECG graphs in Figure 13-13.
8.Identify the types of noise that generally occur in EEG and EMG signals, and discuss the ways noise can be suppressed
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Chapter 7 Problems 6 & 7:
6. Design a notch filter that can remove a 60 Hz noise signal from an ECG signal
7. Explain how a differential amplifier can amplify the ECG signal while not amplifying the noise. Sketch how the patient is connected to the differential amplifier.
Chapter 12 Problems 6:
6. Compare amplifiers (in terms of amplification, bandwidth, and noise requirements) in ECG, EEG, and EMG measurements.
Chapter 13 Problems 1 & 8:
1. Identify and explain the noise in the following ECG graphs in Figure 13-13.
8.Identify the types of noise that generally occur in EEG and EMG signals, and discuss the ways noise can be suppressed