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The cookies is used to store the user consent for the cookies in the category "Necessary". The cookie is used in context with transactions on the website. Necessary: This cookie is provided by Paypal. But opting out of some of these cookies may have an effect on your browsing experience. You also have the option to opt-out of these cookies. These cookies will be stored in your browser only with your consent. We also use third-party cookies that help us analyze and understand how you use this website. Out of these cookies, the cookies that are categorized as necessary are stored on your browser as they are essential for the working of basic functionalities of the website. If this is the sort of thing you're looking at then the only thing you can take from these graphs is that it's comparable to the Fourier transform of the input stimulus, be it the actual shock pulse or the random vibration background.This website uses cookies to improve your experience while you navigate through the website. It's hypothetically available from the National Technical Information Service, but my hard copy was gotten years ago, so I don't know if it's still available. There's some good tutorial material in the front, discussing plotting various shock profiles on 4-coordinate graphs. Clements, is the reference material for MIL-S-901D. If you can find it, the JNRL Report 7396, "Shipboard Shock and Navy Devices for its Simulation," by E.W. The basic (mis)information is that the axes only apply to sinusoidal excitations, hence the prefix "psuedo." The psuedo-velocity is what the velocity would be if you had a sinusoidal excitation of that frequency with hypothetical amplitude based on the integration of the sinewave velocity. Those types of grpahs are peculiar to Navy shock and vibration, e.g., MIL-STD-167 and MIL-S-901D. I've finally made some sense of your original post.