>>10288836It's an image that you posted on an image board to start a new conversation, typically with a targeted question, but because you didn't I'm shitposting
>>10288836[math]E^2 = \left(mc^2\right)^2 + \left(pc\right)^2[/math]
>>10288836E (Energy) = M (Mass) C (Constant/ Speed of Light) squared. Or roughly that mass and energy are the same.
>>10288836>Take a discrete Fourier transform of the image>SVD it>Discards the lowest singular valuesAnd that's how jepg works.
>>10288860>>10288841>>10288838wow you guys are more autistic than I though lol
>>10288871what more do you want us to explainits a formula, just read the terms out
>>10288881So if my chocolate bar weighs 100 g and I multiply that with c squared I'll calculate the "energy" of my chocolate bar?
>>10288915As long as the chocolate bar is at rest.
>>10288931its about 9,000,000,000,000,000,000 joules
>>10288915thats the energy of the rest mass of the chocolate bar
>>10288957It would be same number with different gravity?
>>10289088The energy due to rest mass has absolutely nothing to do with gravity.
>>10289091Is kinetic energy affected by gravity or it's rest mass also?
>>10288852>>10288838Now set p equal to zero...
>>10289097What exactly are you trying to ask? Of course kinetic energy is affected by gravity, just hold an object in the air and let go. Rest mass is invariant.
quick question, since momentum changes depending on observer, energy would too right?watching a train pass youd say its momentum is large, and being on the train you would say it doesnt have any momentum
>>10289153>watching a train passreminds me of https://youtu.be/kGsbBw1I0Rg?t=3m30s
What's the difference between "energy" and "mass/speed of light"?
you know that force = mass x acceleration, right?well Einstein said that force is just another version of energy and energy is mostly photon based. and photons travel at the speed of light (c).so you replace force by energy (E) and acceleration by c^2 (acceleration is the variation of speed, and since the speed of light is constant, it's just c x c / 1).