Nuclear Radiation Vs Electromagnetic Radiation (EVERYTHING YOU NEED TO KNOW MCAT)

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Science Simplified

Science Simplified

Күн бұрын

Пікірлер: 22
@ortezchambliss3189
@ortezchambliss3189 2 жыл бұрын
You can’t COMPREHEND what goes through my mind on a DAILY BASIS. My mind is CONSTANTLY Brainstorming. I can’t control it sometimes, it gets the best of me and consumes me.
@sparklenights5421
@sparklenights5421 Жыл бұрын
and that's a bad thing? i think that's great dude!
@christianhanson5301
@christianhanson5301 Жыл бұрын
Thanks for this, it really did simplify what I didn’t get about nuclear radiation and I finally really understood it👍
@roleks560
@roleks560 4 жыл бұрын
Great Video. Learned a lot of stuff
@sagarks6529
@sagarks6529 2 жыл бұрын
thank you so much it was really helpful ... pls make more videos on how radiation tracer and radiation detectors works
@winnerd6772
@winnerd6772 4 жыл бұрын
wow, thank you... superb explanation
@IntoThePromiseLAND
@IntoThePromiseLAND Жыл бұрын
that was a great explanation thank you so much!!
@yosefsbehat3013
@yosefsbehat3013 3 жыл бұрын
thanks alot, great video
@tunasfishtank
@tunasfishtank 8 ай бұрын
You are SO GOOD at explaining science
@lusiouse
@lusiouse 3 жыл бұрын
are the other spectra of electromagnetic radiation other than visible light not just light in colors our eyes can not see? in other words is the only difference between for example infrared and visible light , the wave length ? other than heat being carried in the infrared ,,,, i guess what im asking is , isnt x ray, gama rays, microwaves etc just colors of light that our eyes cant see ? like are the difference between types of electromagnetic radiation just arbitrary points in the spectrum that we decided to make divisions for purposes of classification ? or is there more of a difference between types (xray visible gama , micro etc ect) other than just wavelength ? is it not all just photons/waves (wave/particle duality ?) at different frequencies?
@sciencesimplified3890
@sciencesimplified3890 3 жыл бұрын
The way to think about it is that the photons we see is just an arbitrary artifact of evolution.. we have genes that create proteins that can sense “photons in the visible light spectrum”…. Other animals have different genes that create proteins that can “sense” other wavelengths.. so the spectrum we call visible light is somewhat arbitrary and based on the photon spectrums we evolved to be able to sense visually
@lusiouse
@lusiouse 3 жыл бұрын
@@sciencesimplified3890 indeed thanks, but are the other "types' like xray gamma ray micro wave etc all just light also at different wavelengths or colors that our eyes cant see? since the only diff between on color to the next in visible light is wave length ,, i think of the other "types" like x ray and gama ray etc just other colors,,,, but my main question is,, is there any other difference between microwave xray gama ray etc. other than wave length ,, and as the wave length gets smaller ,, the ionization danger is increased? and is heat only in infrared or is it just that the longer wavelengths in general carries more heat as they get bigger? thanks!
@kymchessall7853
@kymchessall7853 2 жыл бұрын
@@lusiouse from what I know, the visible spectrum is merely one octave of many resonant octaves within the entire spectrum. Each frequency pulses a unique vibrational tone and each tone resonates with a specific sound and color. Lower slower vibrational pulses, or wavelengths, such as color red, or note A, do contain more heat, heaviness and density than do the faster pulsating oranges yellows, greens and blues. The repeating rainbow pattern of the visible spectrum repeats itself in every octave within the entire spectrum. Just like a piano keyboard. The lower the octave, the deeper and darker the color, sound, feeling tone etc. The higher the octave, the lighter and brighter the color sound or feeling tone. I hope that makes sense. I now see wavelengths or photons as being the frequency of the electromagnetic pulse but I know many still talk in terms of wavelength. Hope that helps
@thegreenskittle
@thegreenskittle 2 жыл бұрын
1:11 - do you mean to say, how stable an atom is depends on how many NEUTRONS it has??
@joeamrine7450
@joeamrine7450 2 жыл бұрын
Perhaps I could have clarified further, but the optimal ratio changes the more protons you have, so I meant to say how that ratio rises the more protons you have but you’re right and it also would have been correct to say that stability depends on how many neutrons it has.. under the context of that point in the video both makes sense but sounds like you got the concept!
@ortezchambliss3189
@ortezchambliss3189 2 жыл бұрын
Wasn’t specifically what I was researching??? Infrared radiation (IR), sometimes referred to simply as infrared, is a region of the electromagnetic radiation spectrum where wavelengths range from about 700 nanometers (nm) to 1 millimeter (mm). Infrared waves are longer than those of visible light, but shorter than those of radio waves. Wanted Infrared radiation vs electromagnetic radiation ☢️ SOURCE: infrared radiation (IR) Infrared radiation (IR), sometimes referred to simply as infrared, is a region of the electromagnetic radiation spectrum where wavelengths range from about 700 nanometers (nm) to 1 millimeter (mm). Jessica Scarpati 02 May 2017
@ortezchambliss3189
@ortezchambliss3189 2 жыл бұрын
Infrared radiation (IR), sometimes referred to simply as infrared, is a region of the electromagnetic radiation spectrum where wavelengths range from about 700 nanometers (nm) to 1 millimeter (mm). Infrared waves are longer than those of visible light, but shorter than those of radio waves. Correspondingly, the frequencies of IR are higher than those of microwaves, but lower than those of visible light, ranging from about 300 Ghz to 400 THz. Infrared light is invisible to the human eye, although longer infrared waves can be sensed as heat. It does, however, share some characteristics with visible light -- namely, infrared light can be focused, reflected and polarized. Wavelength and frequency Infrared can be subdivided into multiple spectral regions, or bands, based on wavelength; however, there is no uniform definition of each band's exact boundaries. Infrared is commonly separated into near-, mid- and far-infrared. It can also be divided into five categories: near-, short-wavelength, mid-, long-wavelength and far-infrared. The near-IR band contains the range of wavelengths closest to the red end of the visible light spectrum. It is generally considered to consist of wavelengths measuring from 750 nm to 1,300 nm -- or 0.75 to 1.3 microns. Its frequency ranges from about 215 THz to 400 THz. This group consists of the longest wavelengths and shortest frequencies, and it produces the least heat. Visible and invisible light illustration Visible and invisible light The intermediate IR band, also called the mid-IR band, covers wavelengths ranging from 1,300 nm to 3,000 nm -- or 1.3 to 3 microns. Frequencies range from 20 THz to 215 THz. Wavelengths in the far-IR band, which are closest to microwaves, extend from 3,000 nm to 1 mm -- or 3 to 1,000 microns. Frequencies range from 0.3 THz to 20 THz. This group consists of the shortest wavelengths and longest frequencies, and it produces the most heat. Infrared radiation uses Infrared is used in a variety of applications. Among the most well-known are heat sensors, thermal imaging and night vision equipment. In communications and networking, infrared light is used in wired and wireless operations. Remote controls use near-infrared light, transmitted with light-emitting diodes (LEDs), to send focused signals to home-entertainment devices, such as televisions. Infrared light is also used in fiber optic cables to transmit data. Electromagnetic spectrum and visible light illustration Electromagnetic spectrum and visible light In addition, infrared is used extensively in astronomy to observe objects in space that can't be detected in whole or part by the human eye, including molecular clouds, stars, planets and active galaxies. History of infrared radiation technology Infrared was discovered by British astronomer Sir William Herschel in 1800. Herschel knew sunlight could be separated into separate components, a step accomplished by refracting the light through a glass prism. He then measured the temperatures of the different colors that were created. He found the temperature increased as the colors progressed from violet, blue, green, yellow, orange and red light. Herschel then went a step further, measuring the temperature in the portion beyond the red area. There, in the infrared area, he found the temperature to be the highest of all.
@roleks560
@roleks560 4 жыл бұрын
But if you dont mind. I have a question, and i would like you to answer it... 1. Where do ElectroMagnetic energy (radiation) come from. How are they made??? 2. When beta radiation happens, it loses or gains proton. But doesnt that mean it is a different material. Because if you change number of protons in Oxygen(O) for 1. You will get Fluorin(F). RIGHT?
@sciencesimplified3890
@sciencesimplified3890 4 жыл бұрын
Yes, the number of protons changes during beta decay... therefore element changes into a new element... remember it is the number of protons that defines what element the material is... anything with 6 protons in carbon... anything with 7 protons is nitrogen etc... for the MCAT, all you need to know is that electromagnetic radiation and photons are produced when an atoms electron drops to a lower energy state... when an atoms electron drops from a high energy state -> lower energy state, there is energy released in the form of a photon... photons are made through other mechanisms but for the MCAT all you need to know is the electrons dropping to lower energy’s states example..
@Reyes6523
@Reyes6523 2 жыл бұрын
E = h * (c/ lambda)
@carloschambliss2238
@carloschambliss2238 2 жыл бұрын
🤔
@erinkelly2144
@erinkelly2144 4 жыл бұрын
Sooooo intense..smoke a j, bro
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