EE/BIOE 497e
PROBLEM SET 4
DUE: 2 May 2008
Problem 1: (34 points) Figure 1 shows the widely used method introduced by Lowe and Tarr in 1968 (distributed in class) for coupling the RF power amplifier and preamplifier to a nuclear resonance probe. T
EE/BIOE 497E Problem 1: (30 points)
PROBLEM SET 1
DUE: 24 March 2008
A 1 ml vial filled with distilled water at room temperature (295 K) is placed in a 7 Tesla magnetic field. 1. (10 points) Determine the total number of protons N in the sample, t
EE 497E Problem 1:
Problem Set 3 Solutions
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EE 497E Problem 1:
% EE 497E Spring 2008 % Problem Set 3 Solutions
Problem Set 3 Solutions
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% Characterstic impedenace of interconnect cables Ro = 50; % Probe Coil L = 8e-6; R = 5; % Operating f
EE/BIOE 497e
PROBLEM SET 3
DUE: 18 April 2008
Problem 1: (60 Points) It is desired to observe and detect a magnetic resonance transition located at o rad/sec in an electrically lossy material. At this frequency, a network analyzer reveals that the
ECE 497E Homework 2 solutions. 1. Assume that in a Fourier imaging experiment, the desired phase-encoding gradients are Gn=nG0. What will happen to the reconstruced image if the gradient system malfunctions such that the effective gradients applied a