• Replying to comment by: MellowI am a queer male teen with a penis, yes Why?

    asking for a friend

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  • Replying to comment by: MellowGay

    do you possess a phallus

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  • Replying to comment by: NARR but festiveFor the N.A.R.R series im going to have a little section wer

    question

    can i be seen briefly rooting through a trash can once and never again

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  • Replying to comment by: MellowSuing me? I'm just the messenger

    then ill sue hm classic

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  • Replying to comment by: Mellow@me-thatswho-2 https://youtu.be/AUy4l1Cd1D0[/bp

    im suing

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  • Replying to comment by: Mellow@me-thatswho-2 https://youtu.be/AUy4l1Cd1D0[/bp

    didnt work

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  • Replying to comment by: NARR but festive*Blows up pancakes with mind*

    *ma fucking pancakes*

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  • Replying to comment by: teo diggity dani totally understand. these two times have been weird specia

    i saw you in the comments section of a portal video

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  • sequel to my last post

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  • Replying to comment by: Ralph (Developer)badassery but pls dont spoil the end of aot for me i will de

    please delete stick nodes 🙏

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  • Replying to comment by: Ralph (Developer)he's always watching even when you're in the bathroom

    demonbot invented pigeons to spy on us

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  • *pours syrup*

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  • Replying to comment by: FSB Vympel Operatorayo what the fuc-

    you got a problem, tentacle head?

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  • Replying to comment by: InfiniteguessFINALLY IM DONE RAHHHHH
    36947_0-63264600-16785

    An electromagnetic pulse (EMP), also a transient electromagnetic disturbance (TED), is a brief burst of electromagnetic energy. Depending upon the source, the origin of an EMP can be natural or artificial, and can occur as an electromagnetic field, as an electric field, as a magnetic field, or as a conducted electric current. The electromagnetic interference caused by an EMP disrupts communications and damages electronic equipment; at higher levels of energy, an EMP such as a lightning strike can physically damage objects such as buildings and aircraft. The management of EMP effects is a branch of electromagnetic compatibility (EMC) engineering.

    EMP weapons deliver high-energy EMP designed to disrupt unprotected infrastructure. In wartime, the most likely use would be to put the electrical network of the target country out of commission. The first recorded damage from an electromagnetic pulse came with the solar storm of August 1859, or the Carrington Event.

    General characteristics
    An electromagnetic pulse is a short surge of electromagnetic energy. Its short duration means that it will be spread over a range of frequencies. Pulses are typically characterized by:

    • The mode of energy transfer (radiated, electric, magnetic or conducted).
    • The range or spectrum of frequencies present.
    • Pulse waveform: shape, duration and amplitude.

    The frequency spectrum and the pulse waveform are interrelated via the Fourier transform which describes how component waveforms may sum to the observed frequency spectrum.

    EMP energy may be transferred in any of four forms:

    Electric field
    Magnetic field
    Electromagnetic radiation
    Electrical conduction
    According to Maxwell\’s equations, a pulse of electric energy will always be accompanied by a pulse of magnetic energy. In a typical pulse, either the electric or the magnetic form will dominate.

    In general, radiation only acts over long distances, with the magnetic and electric fields acting over short distances. There are a few exceptions, such as a solar magnetic flare.

    Frequency ranges
    A pulse of electromagnetic energy typically comprises many frequencies from very low to some upper limit depending on the source. The range defined as EMP, sometimes referred to as \”DC to daylight\”, excludes the highest frequencies comprising the optical (infrared, visible, ultraviolet) and ionizing (X and gamma rays) ranges.

    Some types of EMP events can leave an optical trail, such as lightning and sparks, but these are side effects of the current flow through the air and are not part of the EMP itself.

    Pulse waveforms
    The waveform of a pulse describes how its instantaneous amplitude (field strength or current) changes over time. Real pulses tend to be quite complicated, so simplified models are often used. Such a model is typically described either in a diagram or as a mathematical equation.


    Rectangular pulse

    Double exponential pulse

    Damped sinewave pulse

    Most electromagnetic pulses have a very sharp leading edge, building up quickly to their maximum level. The classic model is a double-exponential curve which climbs steeply, quickly reaches a peak and then decays more slowly. However, pulses from a controlled switching circuit often approximate the form of a rectangular or \”square\” pulse.

    EMP events usually induce a corresponding signal in the surrounding environment or material. Coupling usually occurs most strongly over a relatively narrow frequency band, leading to a characteristic damped sine wave. Visually it is shown as a high frequency sine wave growing and decaying within the longer-lived envelope of the double-exponential curve. A damped sinewave typically has much lower energy and a narrower frequency spread than the original pulse, due to the transfer characteristic of the coupling mode. In practice, EMP test equipment often injects these damped sinewaves directly rather than attempting to recreate the high-energy threat pulses.

    In a pulse train, such as from a digital clock circuit, the waveform is repeated at regular intervals. A single complete pulse cycle is sufficient to characterise such a regular, repetitive train.

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  • Replying to comment by: willowthe character vs the fanart.png 1043 nodes
    344

    oops silly me :3c

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