I study art major to avoid math and physics, but turned out I have to study how lights reflect on each objects including gummy bear and now I'm crying at how bad I am at both art and physics. Very helpful and easy to understand video tho! I love it!! :D
You are telling what and how and what but not why. Why are there different kinds of events? Absorption: light pushes electron to a new quantum level (changing the state of the atom). Reflection: light pushes electron to a new level but electron bounces back and sends out a similar wave (temporary absorption) Transmission: electron is not able to be pushed at all because the light doesn't have enough energy.
It'd be too complicated to explain and would lead you down a whole path of videos lol it's basically an electron that is either increasing or deceasing it's orbit, around an atom producing longer or shorter wavelengths
@@Abc-tx4zr not too complicated to explain, I used to teach spectroscopy in a museum when I was 12. They didnt have age restrictions on volunteering at the time, so long as you knew the material. And you watered it down to the point of being sort of wrong (no offense). Basically, this is the subject of spectroscopy, and googling the term will yield a lot of information on the subject. Electrons around atoms exist in "probability clouds of stability" called "orbitals". To simplify it, electrons require a certain amount of energy to exist in each orbital (you can think of them as shells, some are higher or lower, but that is excluding the concept of suborbitals, which have complicated shapes), and some require more energy than others. Each orbital is pretty exact and specific in the amount of energy required for an electron to stay there. An electron can jump between these orbitals by gaining or losing energy. It does this by absorbing or emitting a photon (particle of light). Since the electron requires a gain or loss of a specific amount of energy, it absorbs or emits a photon of a specifc wavelength (since the wavelength of a photon is related to how much energy it has). This wavelength also corresponds to color. Your eye then blends and averages these wavelengths into one, which you see as a particular color. You can then break that light down into a spectrum with a spectrascope if you want, using things like prisms. This breaks the light down into a rainbow, and if the thing you are observing is either subtracting from the light by absorbtion (like the gummy bears, or the leaf), or emitting light of specific wavelengths (like a neon lamp for example), you will see lines. Colored lines on a black spectrum for emmission, or black lines in a rainbow for absorbtion. These lines are the specific wavelengths of light the electrons in the substance absorbed or emitted. ... And each and every element, and molecular bond, produces a unique pattern of wavelengths in a spectrascope... Meaning you can use a spectrascope to "fingerprint" objects, and figure out what they're made out of, even from a distance. This is why we can tell what a star is made out of without ever having to visit one and take samples. ... The electrons themselves dont have wavelengths... Well, rather, an electron can be described as a wave if you want, as can pretty much any particle, even macroscopic objects, but that is essentially unrelated to the subject of spectroscopy. The only waves you care about in spectroscopy is light waves. You get the jist, I can tell, but that's an improtant distinction that can confuse people.
Really atoms of what make objects virbrate at a specific frequency, light has different vibration frequencies, but the virbration that matches the object will always bounce back. The part of the light sprectrum that vibrates at the same frequency with the object is going to get reflected and the rest that do not match will get absorbed. So what matches has the same polarity, just like magets will repeal.
When light is absorbed, the electron is excited and then goes back to the original position, right? So the radiation that it absorbed should be the same as it emits, I believe. So, is this the effect of reflection? And, for the absorbtion to happen, the photon has to have the exact amount of energy that is equal to the gap of which the electron traveled, which is emitted back when the electron goes back to the stable position, am I right? So my question is, how does absorption (and heat generation) occurs? Thanks for the video (and hopefully the answer)!
So if I have a have two mirrors facing each other and if it is few centimetres apart, the number of images will be multiple rather than being infinite (I kinda feel weird because I always thought it was ♾)
I went on a long bike ride at 12 pm under the sun wearing all black. All I could think about was if wearing black was the best choice. Like, most bikers wear bright green or yellow outfits. I was super confused so I looked it up on youtube as soon as I got home and fortunately found this video. When I took off my clothes I noticed that my skin was fresh and not burnt at all, most of the energy was absorbed by my shirt, not like other times when I went out wearing brighter colors. Rad shit.
Wonderful info and wonderful voice! I can see your strengths as a teacher but might I suggest that you SLOW IT DOWN. I'm and old lady of 65+ years who is exploring math and science for that awe I had as a child. You are wonderful but you need to slow it down and let the slower minds, that think while you're talking, who need time to listen and think, about what you JUST said before you speed onto the next teaching moment. I had to watch this several times to get it all wonderfully tucked away. Thank you so much for being light... just don't talk with the speed of it?😉👍
but how is the light reflected? is there any explanation? for absorption i believe electrons are bumped into higher energy levels or turned into molecule/atom kinetic energy. but how to explain reflection?
how exactly is light "reflected" off of a surface? What happens exactly for an electromagnetic wave to bounce off a surface? Does it have to do with refraction, with the absorption spectrum of the medium it is hitting, or another physical principle?
In the Fall, Leaves turn from green to yellow to red. I guess that's because the tree is trying to absorb as much sun as it can during that season. pretty cool. Never knew that...
Can you please answer? Is there a material that exists or that we can make that stores this absorbed light and then emits it later in the dark? How can I make this material absorb all the spectrums of this light??
I have an existential crisis😂 the leaf threw me off balance 1:26 The color that gets reflected is green why? What is the actual color vs the reflected color?😢
We really need to change this "Light bounces off another object" explanation. Everyone uses the same example, and in doing so, leaves out the coolest part of what is really going on. Thank you helium73 for... Ehem... Shining some light on the matter. lol. Light isn't a flippin tennis ball.
May I ask sth, eventually the reflected transmitted absorbed light are all light that are reflected to come in our eye. I am wondering what is the difference
interesting how nature mutates or evolves to do what it needs like those leafs,,ok you kinda explained absorption and as i figured some of the light or energy is changed to heat but can it be changed to a longer wavelength such as ir etc? and i still don't understand how reflection works on the atomic level what is happening there? as well as transmission ,silly question but dont atoms block the light or cast shadows lol like atoms in glass as opposed to something opaque or solid etc
What causes objects to reflect a certain wavelength of light? For example a lemon is yellow, why does it reflect yellow? My t-shirt is red, why does it reflect red?
The components of your shirt are such that they absorb every color that is NOT the combination of light that gives the red of your shirt, reflecting those frequencies to the eyes of the observer. Is that the answer you were looking for 2 years ago?
Please give an explanation. You gave us good information about the basics, but I wanted know the science behind it, like why the light was not travelling through the red gummy bear like the other ones.
Not EXACTLY what I was looking for. I want to know what about the leaf itself makes it absorb and reflect the colours that it does. I know you said it has to do with the pigment but does the pigment have a frequency of its own the resonates with the colours being absorbed or reflected? Wood, for the most part, is brown. Is that because of the unique vibration of the wood itself? Why a consistent brown when it comes to wood. And consistency in colour with matter like dirt, steal, copper, rubber, etc.
So some of the blue-protect glasses is yellow color instead of blue color. (I mean the reflected ray we can see at some angle) It's because the yellow color lenses absorbs blue light, am i right? but where the blue light go? turn into heat energy?
That was helpful. Question? When the light contacts the angle of incidence does it increased the temperature of the medium in a linear fashion. Is there a relationship between the angle and the net increase of energy delt with by the medium.
When light passes through a glass light of all colours pass through it and make a sprectum.also the portion of light which reflects is not red but white
I watched this video to try to answer a Q about something I see. I'll keep looking, but if anyone knows this, Please feel free to explain: It's a rainy, overcast day, and I'm sitting here looking at the windshield of a Tesla with rain drops on it. The drops on the top half are a bright yellow/orange color with a small reddish band below it, but the strips where the drops have cleared look color neutral. (GREAT, the owner just came out and let me look on the inside.) The inside seems to have a very light gray, color neutral, tint on that part of the windshield. I believe this is an example of refraction. Is that right? And if so, what is the difference between reflection and refraction, and why do the drops appear yellow?
Can you contact me I took pictures of a spiderweb against the white light and actually caught particles moving reflecting the light spectrum. It looks like tiny threads of rainbow bouncing around pretty cool. Would love it if you can look at them.
what happen when Visible (Vis) ,Infra-Red (IR), Microwave, Radio wave and Ultraviolet (UV) types of electromagnetic radiation with corresponding molecular energy transitions that occur when they are absorbed? I mean how they change ? as I know they change to electronic or vibrate or nuclear and rotation, but I am struggling to know which one is change to those.
If the electrons absorb photons to move to a higher energy level, wouldn’t they de-excite and then give off spectrum? And why wouldn’t that spectrum affect the object’s observable color? Pls i’m really confused rn
+Bozeman science , Please do a vidio explaining the polarization of light , please i have an exam about that , Do your thing explaining this topic please
So, it may be a stupid question, but I have to ask it(cause I failed to find answer elsewhere) Why does absorption/reflection/transmission happen? Is it some molecular structure that is responsible for reactions to specific wavelengths? Or something else?
This was extremely helpful, I have a test in 2 days and I was still shaky about this certain topic but know I understand it better thanks to you!
No more tests now must be happy bout that
he makes it so easy to understand!!! thank you!!!
Yass!!!!!
I study art major to avoid math and physics, but turned out I have to study how lights reflect on each objects including gummy bear and now I'm crying at how bad I am at both art and physics.
Very helpful and easy to understand video tho! I love it!! :D
You are telling what and how and what but not why. Why are there different kinds of events?
Absorption: light pushes electron to a new quantum level (changing the state of the atom).
Reflection: light pushes electron to a new level but electron bounces back and sends out a similar wave (temporary absorption)
Transmission: electron is not able to be pushed at all because the light doesn't have enough energy.
Thank you! This video is great but your answer is what I was actually looking for.
this is straight up wrong
If that is straight up wrong, please enlighten us with the right answer.
Thanks you !!
Helped me more than much books and videos
why the electron in absorption doesn't remmit the light ?
I just love this style of teaching, thank you sir!
I was kinda looking for more info of whats happening at the quantum level.
inSpihr
What happened when light transmitted
meeee 2
It'd be too complicated to explain and would lead you down a whole path of videos lol it's basically an electron that is either increasing or deceasing it's orbit, around an atom producing longer or shorter wavelengths
@@Abc-tx4zr not too complicated to explain, I used to teach spectroscopy in a museum when I was 12. They didnt have age restrictions on volunteering at the time, so long as you knew the material. And you watered it down to the point of being sort of wrong (no offense).
Basically, this is the subject of spectroscopy, and googling the term will yield a lot of information on the subject. Electrons around atoms exist in "probability clouds of stability" called "orbitals". To simplify it, electrons require a certain amount of energy to exist in each orbital (you can think of them as shells, some are higher or lower, but that is excluding the concept of suborbitals, which have complicated shapes), and some require more energy than others. Each orbital is pretty exact and specific in the amount of energy required for an electron to stay there. An electron can jump between these orbitals by gaining or losing energy. It does this by absorbing or emitting a photon (particle of light). Since the electron requires a gain or loss of a specific amount of energy, it absorbs or emits a photon of a specifc wavelength (since the wavelength of a photon is related to how much energy it has). This wavelength also corresponds to color. Your eye then blends and averages these wavelengths into one, which you see as a particular color.
You can then break that light down into a spectrum with a spectrascope if you want, using things like prisms. This breaks the light down into a rainbow, and if the thing you are observing is either subtracting from the light by absorbtion (like the gummy bears, or the leaf), or emitting light of specific wavelengths (like a neon lamp for example), you will see lines. Colored lines on a black spectrum for emmission, or black lines in a rainbow for absorbtion. These lines are the specific wavelengths of light the electrons in the substance absorbed or emitted.
... And each and every element, and molecular bond, produces a unique pattern of wavelengths in a spectrascope... Meaning you can use a spectrascope to "fingerprint" objects, and figure out what they're made out of, even from a distance. This is why we can tell what a star is made out of without ever having to visit one and take samples.
... The electrons themselves dont have wavelengths... Well, rather, an electron can be described as a wave if you want, as can pretty much any particle, even macroscopic objects, but that is essentially unrelated to the subject of spectroscopy. The only waves you care about in spectroscopy is light waves. You get the jist, I can tell, but that's an improtant distinction that can confuse people.
@@hatman4818 Idk why I posted that yeah that makes sense
this really shows why gummy bears should be eaten for science n stuff
@Kyryn Jones mans 2 years late
@@niftywhn2296 man's 3 years late
@@cm7365 man's 4 years late
@@salilgudup1108 man's 6 years late
Yes
this was so helpful and i now understand the colors and much more, thank you for the explanation.
Best explanation and real world examples 👌🏼
Quick and efficient explanation.
POV : this is your homework
P and Z Gaming crazy cause it is
Yep this is my homework
Fr
Yea
Yess
😊 instant subscription sir that was extremely helpful keep up the good work🎉
tomorrow i got an exam HEAT,LIGHT AND SOUND.
Let's just say you helped me a lot with Light now just goatta go to Heat and sound
Sane'
ive got one today 💀
@@hqribbo4950 I finished school
Lamar Al Mohawes im out of school but my physics teacher be vgiving me test
At 01:27 the leaf is not reflecting light, it's transmitting (and absorbing) light. It is a backlit subject. It is not lit from the front.
because it isn't in natural sunlight, its in a dark room not outside
Really atoms of what make objects virbrate at a specific frequency, light has different vibration frequencies, but the virbration that matches the object will always bounce back.
The part of the light sprectrum that vibrates at the same frequency with the object is going to get reflected and the rest that do not match will get absorbed.
So what matches has the same polarity, just like magets will repeal.
It really helps me in my report thank you ❤
Hey, that's Mt. Hood over Mirror Lake! I love that picture, the mountain is so beautiful.
Thank youuuu so much it was helpful ❤
I am so happy that I found this video!
I also
Really helped with my test tomorrow. Thank you!
Thank you very much . I was confused when i tried to understand light but i understood now.
When a light ray enters into Glass from Air, What is about absorption? Where does the light energy go?
its converted into heat energy...energy cannot be created or destroyed...but can change in forms.
Fully?
@@khandakerrashidanjumlabib8436 not completely into heat energy, some may converted in kinetic energy(gained by particles of gumny bear)
that was soooooooooo helpful thanks a lot helped with my exam
Great explanation. Thank you.
Thank you. That was incredibly helpful.
Really well explained. Thanks for creating this.
Very helpful since I missed class, thanks!
When light is absorbed, the electron is excited and then goes back to the original position, right? So the radiation that it absorbed should be the same as it emits, I believe. So, is this the effect of reflection? And, for the absorbtion to happen, the photon has to have the exact amount of energy that is equal to the gap of which the electron traveled, which is emitted back when the electron goes back to the stable position, am I right?
So my question is, how does absorption (and heat generation) occurs?
Thanks for the video (and hopefully the answer)!
thank you so much all your videos really explain a lot and help when I'm stressed about a certain topic which in this case is light
This was really hepful and insightful thank you c:
This is amazing, so helpful!!
So if I have a have two mirrors facing each other and if it is few centimetres apart, the number of images will be multiple rather than being infinite (I kinda feel weird because I always thought it was ♾)
Actually number images will be infinite only when the mirrors are of infinite length
Your explanation style is brilliant Sir please keep making videos.You are the best.
I went on a long bike ride at 12 pm under the sun wearing all black. All I could think about was if wearing black was the best choice. Like, most bikers wear bright green or yellow outfits. I was super confused so I looked it up on youtube as soon as I got home and fortunately found this video. When I took off my clothes I noticed that my skin was fresh and not burnt at all, most of the energy was absorbed by my shirt, not like other times when I went out wearing brighter colors.
Rad shit.
Wonderful info and wonderful voice! I can see your strengths as a teacher but might I suggest that you SLOW IT DOWN. I'm and old lady of 65+ years who is exploring math and science for that awe I had as a child. You are wonderful but you need to slow it down and let the slower minds, that think while you're talking, who need time to listen and think, about what you JUST said before you speed onto the next teaching moment. I had to watch this several times to get it all wonderfully tucked away. Thank you so much for being light... just don't talk with the speed of it?😉👍
It was just an amazing helpful video, thank u a lot
but how is the light reflected? is there any explanation? for absorption i believe electrons are bumped into higher energy levels or turned into molecule/atom kinetic energy. but how to explain reflection?
jekabs karklins Yeah that's what I want to know
how exactly is light "reflected" off of a surface? What happens exactly for an electromagnetic wave to bounce off a surface? Does it have to do with refraction, with the absorption spectrum of the medium it is hitting, or another physical principle?
Soooo professional explain 💙💙💙💙
In the Fall, Leaves turn from green to yellow to red. I guess that's because the tree is trying to absorb as much sun as it can during that season.
pretty cool. Never knew that...
It's because the tree sucks the chlorophyll out of the leaves to prepare for winter.
It is super helpful.
I had a project on color due tomorrow and i needed a video explanation and video simulation, I give m thanks to you and your gummy bears.
Thanks so much sir...❤️❤️❤️🙏🙏
Do the reflected photons lose some energy and if so then frequencies must have changed?
I have an exam coming up you just saved me an F. Thank you
Haha lol
Im sorry but how do you hold light in your hand? i feel like this should have been explained on a deeper level.
Can you please answer? Is there a material that exists or that we can make that stores this absorbed light and then emits it later in the dark? How can I make this material absorb all the spectrums of this light??
Now I know everything tySOSOMUCH SIRRRR😁😁😁🥰🥰
thank you so much for such a wonderful explanation sir
thank you so much, this is really helpful !! :)
Your observation is very intersting
I appreciate a lot your videos ^^ Keep up the good work !
Going to watch a lot of thems to success at my exams haha :p
Nice and simple but explicit enough so ppl can assimilate the lesson ... 👍
Helpful to understand transmission of light
You didn't explain why some light is absorbed vs being transmitted. You just explained the terms. I guess that's a starting to do more searches.
helium73 l
It was helpful!!! Thank you!!!
Awesome video!!!
What is the minimum wavelength required for light to cross any translucent object??
Help please
i need more explanation in light absorption area.
True the explanation was not sufficient enough for any physics student. This video was a total waste of time
u need friends
@@zackstirling4392 😭😭
impresive content!
Great job! You rock!
I have an existential crisis😂
the leaf threw me off balance
1:26
The color that gets reflected is green why?
What is the actual color vs the reflected color?😢
so if the leaves underside is purple on the outside, it's only purple on the inside, right? in order to reflect?
We really need to change this "Light bounces off another object" explanation. Everyone uses the same example, and in doing so, leaves out the coolest part of what is really going on. Thank you helium73 for... Ehem... Shining some light on the matter. lol. Light isn't a flippin tennis ball.
Do reflection and refraction occur at the same time?
May I ask sth, eventually the reflected transmitted absorbed light are all light that are reflected to come in our eye. I am wondering what is the difference
You a real homie my g
Don't forget melody and beat lead towards chaos and order depending on the consistency and it must not be heard by anyone else
Great tutorial
interesting how nature mutates or evolves to do what it needs like those leafs,,ok you kinda explained absorption and as i figured some of the light or energy is changed to heat but can it be changed to a longer wavelength such as ir etc? and i still don't understand how reflection works on the atomic level what is happening there? as well as transmission ,silly question but dont atoms block the light or cast shadows lol like atoms in glass as opposed to something opaque or solid etc
how will you calculate the absorptivity of a plastic surface that reflect two-third of the sound energy incident on it?
What causes objects to reflect a certain wavelength of light? For example a lemon is yellow, why does it reflect yellow? My t-shirt is red, why does it reflect red?
The components of your shirt are such that they absorb every color that is NOT the combination of light that gives the red of your shirt, reflecting those frequencies to the eyes of the observer.
Is that the answer you were looking for 2 years ago?
Corey Evans because the visible light that you see is what reflects off the shirt... the other colors are absorbed back into the light
u just cleared a doubt my teacher could'nt explain when i was in class 5th
what are you using i wanna make vids like you so plz tell me
What are light absorption organic compounds
TF = Transfer factor.
What is TF donor?
Great Video
Please give an explanation. You gave us good information about the basics, but I wanted know the science behind it, like why the light was not travelling through the red gummy bear like the other ones.
Because the colour red absorbed the colour green
Thank you so much sir
Not EXACTLY what I was looking for. I want to know what about the leaf itself makes it absorb and reflect the colours that it does. I know you said it has to do with the pigment but does the pigment have a frequency of its own the resonates with the colours being absorbed or reflected? Wood, for the most part, is brown. Is that because of the unique vibration of the wood itself? Why a consistent brown when it comes to wood. And consistency in colour with matter like dirt, steal, copper, rubber, etc.
Can you use a mirror to reflect light to a plant?
So some of the blue-protect glasses is yellow color instead of blue color. (I mean the reflected ray we can see at some angle)
It's because the yellow color lenses absorbs blue light, am i right?
but where the blue light go? turn into heat energy?
does this apply to 'split' white light?
That was helpful. Question? When the light contacts the angle of incidence does it increased the temperature of the medium in a linear fashion. Is there a relationship between the angle and the net increase of energy delt with by the medium.
Sir plz explain it at atomic level
When light passes through a glass light of all colours pass through it and make a sprectum.also the portion of light which reflects is not red but white
Sir due to which property a object is able to pass a light ray from itself
I watched this video to try to answer a Q about something I see. I'll keep looking, but if anyone knows this, Please feel free to explain: It's a rainy, overcast day, and I'm sitting here looking at the windshield of a Tesla with rain drops on it. The drops on the top half are a bright yellow/orange color with a small reddish band below it, but the strips where the drops have cleared look color neutral. (GREAT, the owner just came out and let me look on the inside.) The inside seems to have a very light gray, color neutral, tint on that part of the windshield. I believe this is an example of refraction. Is that right? And if so, what is the difference between reflection and refraction, and why do the drops appear yellow?
This helps me a lot thank you.
Can you contact me I took pictures of a spiderweb against the white light and actually caught particles moving reflecting the light spectrum. It looks like tiny threads of rainbow bouncing around pretty cool. Would love it if you can look at them.
Okay, but why is color reflected by an object different than reflected light that is blocked by a polarizing filter?
Is there any equation which relates the 3 phenomena?
what happen when Visible (Vis)
,Infra-Red (IR), Microwave, Radio wave and Ultraviolet (UV) types of electromagnetic radiation with corresponding molecular energy transitions that occur when they are absorbed? I mean how they change ? as I know they change to electronic or vibrate or nuclear and rotation, but I am struggling to know which one is change to those.
If the electrons absorb photons to move to a higher energy level, wouldn’t they de-excite and then give off spectrum? And why wouldn’t that spectrum affect the object’s observable color? Pls i’m really confused rn
Very informative video! I loved the idea of using Gummy bears!
R.A.T. And R.E.P. Thank you.
+Bozeman science , Please do a vidio explaining the polarization of light , please i have an exam about that , Do your thing explaining this topic please
So, it may be a stupid question, but I have to ask it(cause I failed to find answer elsewhere)
Why does absorption/reflection/transmission happen? Is it some molecular structure that is responsible for reactions to specific wavelengths? Or something else?
1 year later
Beautiful!
could you explain difference in fluoroscence and absorption