•    Plot finger trajectories with the corresponding target •    Find the coordi

•    Plot finger trajectories with the corresponding target
•    Find the coordinates of the target, and the movement endpoint trial, and assemble the data into well-organized tables.
•    Calculate the X and Y distance between the target and the finger endpoint.
•    Find the means and standard deviations of these distances
•    Calculate and plot the finger velocity for each trial.
•    Calculate and plot the elbow joint angle vs. time.
•    Calculate elbow angular velocity. Compare peak velocity.
•    Using the subplot options in MATLAB, create a figure showing elbow angle vs. time, elbow angular velocity vs. time, Triceps and Biceps EMG activity vs. time. How will you sync up the plots given that the cameras and the amplifier use different sampling frequencies? Describe during which part of your reaching movement you observe maximal or minimal EMG? Try to explain the relationship between the timing of the EMG activity and the movement.

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