Potassium *should* give a faint violet -- but it's almost impossible to get potassium salts that aren't contaminated with a trace of sodium, and the yellow flare of the sodium covers the potassium's faint violet. Look through a piece of cobalt glass, however, and it'll filter out the sodium yellow and allow you to see the potassium violet.
I once got the violet flame burning dried shrooms. Only for a second tho, before the other stuff gets carbonized and then you only get the carbon orange
Li:- Crimson Red Na:- yellow K:- lilac Rb:- voilet-pink Cs:- blue Ca:- brick red Sr:- crimson red Ba:- apple green And so on these are just s block elements!
A little clarification on potassium. It’s color spectrum should be violet but it is really easy for it to be covered up by other trace elements. A caveat to this is looking at the flame through a cobalt glass piece.
We did this experiment in 7th grade science class! More than 20 years later and it still sticks in my brain as one of my favorite, most memorable science lessons ever!!
It was nice for me too, but then this idiot kid was being loud and obnoxious with some girl, and when caught by the teachsr to move to his own chair, he just dragged it. Annoying screech. I can tell the teacher's happy mood was ruined. 😢
You still live in the world man, thus still being able to contemplate at daily phenomena. Never is too late to get interested AND learn something, science is useful and fun!
@edwsantos633 I do learn all the time! What I was referring to, is that I wish I had made a career in the sciences. I'm an old lady now. But I do appreciate the pep talk! ❤️
No bs looping* some loops are really creative and are a great use of the platform, but the people that just say "and that's howwww... Fireworks get their colour from different elements," suck.
What’s actually happening here is the electrons in ions are able to move through energy levels in their shells releasing excess energy in the form of light with different energies having different places on the wave length , which is also why all the transition metals have various oxidation states and form different colours depending on which ion it is .
I did this in my chemistry class, and i loved doing it. That's probably why I'm going into a science field after high school. Because it interesting how different elements on the periodic table can make a reaction with fire to make different colors
This principle is used in flame photometry It is used to determine the salt conc As different salt exhibit different colour the intensity of colur is depend on cnc of salt
In case you missed it, it's because electrons are getting excited, moving to a higher energy level, and then falling back down. The "falling" back down releases photons. The change in energy the electron experiences equates to the wavelength of light emitted. Each element has it's own unique emission spectra.
@@CeRzit’s a good enough explanation for the average Joe. It’s not really necessary to go into the spin orbital coupling and the energy corrections to the Bohr model. Just saying that there are discrete energies that the electrons can occupy is fine
@@johndoe7017 I agree. But I never added any personal values that it was a bad explanation or "unfine" to leave out the fine structures of the atoms. Only because I say that it's a highschool explanation; that implies not any negative connotations. As with everything, nature is more complex as made to be, more times than not. The purpose of my comment was to make a remark, if anyone is interested, to dive deeper into orbitals and the spins of electrons, because there is quite a lot of research.
@@CeRz what's the point of correcting someone just to drop jargon? Provide a deeper explanation or tell people what to google. Otherwise you're just denigrating an explanation with a lot of predictive power.
Yellow and blue don't make green. At least, not with light, and with true blue. Yellow and blue make white. Yellow dye (like a marker) and CYAN (like the sky) dye do make green, because yellow dye absorbs blue light, and cyan dye absorbs red light, leaving the green.
Like @DJ_Force explained we're talking about different ways to combine color here. Schools never teach you this but combining light colors (like on a screen or a colored flashlight) is totally different than combining pigment colors (like with paints, which is what they teach at schools).
actually potassium gives a purple/lilac colour. The yellow/orange is due to sodium impurities. Using cobalt blue glass blocks this out and the lilac can be easily seen
Yeah, it's a toss-up between Lithium Chloride and Copper for me. Those _crazy_ shades of emerald greens from the copper and the wild, pinkish reds from the Lithium Chloride are just mesmerizing. What would happen if you mixed them? Do you think they would react seperately from each other causing two distinctly different colored flames or could they be mixed to produce what I would guess to be a kind of darker, orangish/brownish color? Do you think you might be able to test that out for us? Pretty please with whipped cream and sprinkles and a cherry on top? You could try mixing all sorts of different combinations, it would be so much fun!
I mean they shouldn’t react together as that’s not a reversible reaction (only CuCl2 + Li works, not the other way) so I imagine it would be two distinct colours, just a bit messy looking so it would probably appear a bit brownish/murky. That’s just a guess off pure theoreticals though.
@@yunggoosbumps215it really didn't kill the possibility for kids to get I to science lmao, giving kids lithium to play with would be a stupid idea, most of those kits were banned because they realised they let kids play with dangerous substances not because people were using it for nefarious schemes
2 (Na, K) of these can bought from any grocery shop, 2 (Li, Cu) are commonly included in chemistry kits and the strontium salt is easily and legally bought online in any western nation. In the UK almost no chemicals are outright banned for educational use, search "Royal Society of Chemistry - Surely that's banned" for a great article talking about it. If they are harder to find in the States, it's likely due to the threat of lawsuits as opposed to actual legislation banning them. The main barrier to kids trying this is overprotective/uninterested parents and teachers.
@@somebodysson227 what a weird response to someone saying they wished they would've learned a specific thing in school. Why's it so shameful to you that they weren't taught this?
@@jadedragon8548 it’s not shameful. As someone who didn’t make use of everything that was offered to me in school, I find excuses like that childish. Just learn it if you want to learn it. Don’t bash your teachers who most definitely taught such a basic concept more than once. It’s all about accountability
This reminds me of this “crazy fire” product I bought when I was a kid. It was essentially all these salts mixed together and a purple salt which we threw in a camp fire to make a rainbow camp fire.
@@nemesheesh897 I believe what he meant isnt about potassium color. It is about inconsistency of theory and actual result. Which most scientist could relate (In which that also their field). Well, I am not saying HS student could not relate, but I hope you got what I meant.
So if you mixed two elements that give off different coloured flames (let’s say blue and yellow) would that compound emit a green flame too when burned?
Sodium lights is how Disney did the special effects for Mary Poppins back in the day as they could use a filter to remove that color from the background and then had another camera that was aimed at a special prism being used with this filter to have only the yellow color showing on that film, making it so there was a map of where the animations for each frame would need to be and unlike with modern green screens this methode also preserved transparant effects from clothing (lace, frills, etc) and from where your hair parts when it moves around. Cool how this same scientific knowledge can be used in such varied applications.
No he is Dr walter white he's a chemistry teacher and a drug maker (not actually this guy he's from breaking bad series) not Dr stone he's just a young man tho😅
It’s to do with the difference between energy levels that the excited electrons travel between. The difference between these levels is unique for every element
@@eddiedelgado7725It is bruv. Flame tests rely on the energy required for the valence electrons of said element to go into the excited state. That high energy from the flame on it makes them emit light in the coloured spectrum as in the visible region.
Magnesium is rather boring for the flame test, its salts do not give any notable color. The bright white, uv-rich light of burning magnesium metal is something different.
Nice! but here's a simple and delicious vanilla cake recipe for you to try: Classic Vanilla Cake Recipe Ingredients For the Cake: 2 ½ cups all-purpose flour 2 ½ tsp baking powder ½ tsp salt 1 cup unsalted butter, softened (2 sticks) 2 cups granulated sugar 4 large eggs 1 tbsp vanilla extract 1 cup whole milk For the Buttercream Frosting: 1 cup unsalted butter, softened (2 sticks) 4 cups powdered sugar 1 tsp vanilla extract 2-4 tbsp milk (adjust for desired consistency) Instructions 1. Preheat the Oven: Preheat your oven to 350°F (175°C). Grease and flour two 9-inch round cake pans. 2. Prepare Dry Ingredients: In a medium bowl, whisk together the flour, baking powder, and salt. Set aside. 3. Cream Butter and Sugar: In a large mixing bowl, beat the softened butter and granulated sugar together with an electric mixer on medium speed until light and fluffy (about 3-5 minutes). 4. Add Eggs and Vanilla: Add the eggs one at a time, beating well after each addition. Then, mix in the vanilla extract. 5. Combine Dry and Wet Ingredients: Gradually add the flour mixture to the butter mixture, alternating with the milk, starting and ending with the flour mixture. Mix until just combined. Do not overmix. 6. Bake the Cakes: Divide the batter evenly between the prepared cake pans. Bake in the preheated oven for 25-30 minutes, or until a toothpick inserted into the center comes out clean. 7. Cool the Cakes: Allow the cakes to cool in the pans for about 10 minutes before turning them out onto a wire rack to cool completely. 8. Make the Buttercream Frosting: In a large mixing bowl, beat the softened butter until creamy. Gradually add the powdered sugar, one cup at a time, mixing on low speed until combined. Add the vanilla extract and 2 tablespoons of milk. Beat on high speed until light and fluffy, adding more milk if needed to reach the desired consistency. 9. Assemble the Cake: Once the cakes are completely cool, place one layer on a serving plate. Spread a layer of frosting on top, then place the second layer on top. Use the remaining frosting to cover the top and sides of the cake. 10. Decorate: Feel free to decorate your cake with sprinkles, fresh fruit, or any other decorations of your choice! Enjoy Your Cake! Slice and serve your delicious vanilla cake! It pairs wonderfully with coffee or tea. Enjoy!
Sir from my school times, i wonder what's a fire? What kinda matter it is? How different thing can give different colour? Is there a chemical combination for it? If yes then what's the colour of it?
Thank you Mr. White
Found it !
Search for your comments
@@arkadeepm what did I miss?
AYE SAME PFP ‼️‼️‼️
@@spokii.iyou summond the vaping cats
It's crazy, how when copper rusts it turns green, also burns green too.
Horseshoe crabs have blue blood because of the copper in their blood compared to are red blood with iron
Rust is oxidation. I guess burning too is a form of oxidation.
Rusting is just slow burning
Both processes are same thing - oxidation. The only difference is speed. Fast is fire, slow is rust.
It also depends on the ionization properties of different copper ions... i.e Cu+ -much more of blue...... Cu2+ much more of green
These kind of videos are Gold.
Why?
@@samdowner1792They just have that same feel of the educational videos that we’d get shown in school back in the 90s.
No, fire
I see what you did there....GOLD (Au)
@@samdowner1792Because unlike the useless mind trap that media has become, these actually give information
You nailed it...green ...also hardest to get in other experiments
Not true
Titration pink left the chat 😅
Potassium *should* give a faint violet -- but it's almost impossible to get potassium salts that aren't contaminated with a trace of sodium, and the yellow flare of the sodium covers the potassium's faint violet. Look through a piece of cobalt glass, however, and it'll filter out the sodium yellow and allow you to see the potassium violet.
Thanks Walter
Exactly what i was thinking. 😮 i just thought that potassium gives violet color, but here it didn't
Wow I wouldn't ever known if you wouldn't have wrote it, cheers dude !
I once got the violet flame burning dried shrooms. Only for a second tho, before the other stuff gets carbonized and then you only get the carbon orange
Plastic also gives off green color
Li:- Crimson Red
Na:- yellow
K:- lilac
Rb:- voilet-pink
Cs:- blue
Ca:- brick red
Sr:- crimson red
Ba:- apple green
And so on these are just s block elements!
Forgot about Cu
Cu in pyro gives blue
Cs is too expensive to use in pyrotechnics
Uranium?
@@PrismPlaysGames57mushroom
Does this correlate with the elements and their frequencies in regards to wavelength and color or is this unrelated?
& my favorite overall, uranium, giving out a huge 20-mile blast range flame
lmaooooo
Color: cancer
Thats not how that works
IT also glows in the dark 😊
That’s funny 😄. But it doesn’t work that way.
A little clarification on potassium. It’s color spectrum should be violet but it is really easy for it to be covered up by other trace elements. A caveat to this is looking at the flame through a cobalt glass piece.
We did this experiment in 7th grade science class! More than 20 years later and it still sticks in my brain as one of my favorite, most memorable science lessons ever!!
I did it in 8th grade but it was great I still have the video saved from when we did it
Same derby
It was nice for me too, but then this idiot kid was being loud and obnoxious with some girl, and when caught by the teachsr to move to his own chair, he just dragged it. Annoying screech. I can tell the teacher's happy mood was ruined. 😢
Pretty sure it's not done anymore.
@@Naruto31132sounds like 313
Science is so cool. I wish I appreciated it when I was in school.
You still live in the world man, thus still being able to contemplate at daily phenomena. Never is too late to get interested AND learn something, science is useful and fun!
@edwsantos633 I do learn all the time! What I was referring to, is that I wish I had made a career in the sciences. I'm an old lady now. But I do appreciate the pep talk! ❤️
Science is cool until you have to memorize which gives what colour
@@susanegley4149 Never too late.
I came here to say it's never late and you're ready when you're ready. I'm glad it's become common knowledge.
Such contents are needed sir.. Instead of useless shorts 🙏
Lithium chlorid and copper it's flames is amazing 😊 I love it 🤩
This is how shorts should be. No clickbait, no screaming at me, no looping
No bs looping* some loops are really creative and are a great use of the platform, but the people that just say "and that's howwww... Fireworks get their colour from different elements," suck.
No asking to like and subscribe
@@catchphase its not even impressive honestly
Meh looping can be
No subtitling every single word individually as it’s spoken
Dude explains firework colors and is lowkey enjoying chemical fumes like a boss
Natsuki pfp
how bad is this genuinely though? i remember in school like 30 kids all doing this in a classroom
This doesn't produce "chemical fumes" in the sense of toxic gases being released.
Gives (strontium) toxicity to the water wells , along with bone deformities
Nice pfp
What’s actually happening here is the electrons in ions are able to move through energy levels in their shells releasing excess energy in the form of light with different energies having different places on the wave length , which is also why all the transition metals have various oxidation states and form different colours depending on which ion it is .
at first i expected that he will explain like this but he just burned different molecules lol
@@whizle5585 It is a great video regardless
Dope...
It’s those good old partially filled d orbitals
You mean transition metals have variable oxidation state due to d-d transition? Lol
Flame photometry is used to determine the metals present in solution.. this is used for analysis both qualitative and quantitative
I wish I had you as my science teacher, you’re so easy to listen to
Well yea its just a few clips
Learning how fireworks get their colors is so fascinating, science is truly magical and beautiful.
You againnn!??!! 🥴😶
Ur everywhere 😬😵💫😵
You should.watch Dr. Stone if you like science.
Chicken????
10yrs and I still remember this from class. Because it’s just so brilliant!
One of my favorite is probably Boron with the green. We test it with Boric acid and it's cool af.
Fun fact. The reason most fireworks aren’t the beautiful blue color is because it cost way more money and is harder to source than the other elements.
You mean blue there's no blue firework
I see green fireworks all the time
I thought that was for blue
@@Fadz-zg6bt I changed it. Yes it’s blue. But green. All tho sometimes it’s a bluish green but I meant to put blue. Thank you
Are there purple ones?
Great now try uranium 👍
😂😂
the color revel would be a mind-blowing banger
Boom
I don’t think you’d get the chance to process what colour it is before it kills you
Ok now thats just down bad 😂
Love when he sprinkled a mixture of them all into a burning flask! The colors were so beautiful..
retake hs chem
I did this in my chemistry class, and i loved doing it. That's probably why I'm going into a science field after high school. Because it interesting how different elements on the periodic table can make a reaction with fire to make different colors
This principle is used in flame photometry
It is used to determine the salt conc
As different salt exhibit different colour the intensity of colur is depend on cnc of salt
“And Magnesium gives you a bright white color”
moments before disaster
@@Dunswapwhy is it dangerous to flame test magnesium can you please reply I don't know .
@@Winter-w9v if you put magnesium in fire it burns so bright that if you see it with bare eyes you will go blind temporarily
@@Winter-w9v No, thats fine if you flame test a pure magnesium strip.
@@季悦ふぁん ohh ok thanks for answering😊
I LOVE green fire
My eyes love the lithium, my brain needs the lithium.
Me too! It's beautiful!
it's like looking closely at an aurora borealis
Who doesn't??😂
It's soo satisfying 😃😃
In case you missed it, it's because electrons are getting excited, moving to a higher energy level, and then falling back down. The "falling" back down releases photons. The change in energy the electron experiences equates to the wavelength of light emitted. Each element has it's own unique emission spectra.
This is the highschool explanation. The complexity goes a bit deeper than that due to orbitals and the spins of the electrons.
Tha
@@CeRzit’s a good enough explanation for the average Joe. It’s not really necessary to go into the spin orbital coupling and the energy corrections to the Bohr model. Just saying that there are discrete energies that the electrons can occupy is fine
@@johndoe7017 I agree. But I never added any personal values that it was a bad explanation or "unfine" to leave out the fine structures of the atoms. Only because I say that it's a highschool explanation; that implies not any negative connotations. As with everything, nature is more complex as made to be, more times than not. The purpose of my comment was to make a remark, if anyone is interested, to dive deeper into orbitals and the spins of electrons, because there is quite a lot of research.
@@CeRz what's the point of correcting someone just to drop jargon? Provide a deeper explanation or tell people what to google.
Otherwise you're just denigrating an explanation with a lot of predictive power.
Realizing he used the word ‘brilliant’ as a descriptor too many times, and switching it up was a class act. Great demo, sir!
Can you mix them to create more colours? E.g. yellow+blue=green?
Not really. You might get streaks of the mixed colour, but most of it burn separately.
Yellow and blue don't make green. At least, not with light, and with true blue. Yellow and blue make white.
Yellow dye (like a marker) and CYAN (like the sky) dye do make green, because yellow dye absorbs blue light, and cyan dye absorbs red light, leaving the green.
just put the fire in a blender for 30 minutes
Booooom
Like @DJ_Force explained we're talking about different ways to combine color here. Schools never teach you this but combining light colors (like on a screen or a colored flashlight) is totally different than combining pigment colors (like with paints, which is what they teach at schools).
chemistry is the study of matter but I prefer to see it as study of change 🗣️‼️‼️
The green blue combination is beautiful.......
actually potassium gives a purple/lilac colour. The yellow/orange is due to sodium impurities. Using cobalt blue glass blocks this out and the lilac can be easily seen
Yeah, it's a toss-up between Lithium Chloride and Copper for me. Those _crazy_ shades of emerald greens from the copper and the wild, pinkish reds from the Lithium Chloride are just mesmerizing. What would happen if you mixed them? Do you think they would react seperately from each other causing two distinctly different colored flames or could they be mixed to produce what I would guess to be a kind of darker, orangish/brownish color? Do you think you might be able to test that out for us? Pretty please with whipped cream and sprinkles and a cherry on top? You could try mixing all sorts of different combinations, it would be so much fun!
I mean they shouldn’t react together as that’s not a reversible reaction (only CuCl2 + Li works, not the other way) so I imagine it would be two distinct colours, just a bit messy looking so it would probably appear a bit brownish/murky. That’s just a guess off pure theoreticals though.
I love an educational and entertaining video!
This was actually very interesting ❤❤
Man, I remember when chemistry sets actually had those chemicals in them! Those were the days!!!
I had a chemistry set in the 1960s.😊
This demonstration was WEAK. 🤨🤔👎
I love the lights of the firetrucks.
Amen
@@yunggoosbumps215it really didn't kill the possibility for kids to get I to science lmao, giving kids lithium to play with would be a stupid idea, most of those kits were banned because they realised they let kids play with dangerous substances not because people were using it for nefarious schemes
2 (Na, K) of these can bought from any grocery shop, 2 (Li, Cu) are commonly included in chemistry kits and the strontium salt is easily and legally bought online in any western nation.
In the UK almost no chemicals are outright banned for educational use, search "Royal Society of Chemistry - Surely that's banned" for a great article talking about it.
If they are harder to find in the States, it's likely due to the threat of lawsuits as opposed to actual legislation banning them.
The main barrier to kids trying this is overprotective/uninterested parents and teachers.
I wish our teacher showed us this in school
Your teacher probably showed you all of this and more.. you just didn’t care. Me neither. Get over it or relearn it.
Tf school did you go to? Every school I went to we were shown this practically every other year
@@StevenMcStevenot mine
@@somebodysson227 what a weird response to someone saying they wished they would've learned a specific thing in school. Why's it so shameful to you that they weren't taught this?
@@jadedragon8548 it’s not shameful. As someone who didn’t make use of everything that was offered to me in school, I find excuses like that childish. Just learn it if you want to learn it. Don’t bash your teachers who most definitely taught such a basic concept more than once. It’s all about accountability
Copper like aurora folour.I LIKE ITTTT TOO🥰🥰
I wasted learning chemistry the hard way while the real practical and simple explanation is right here...
The Hard part is: how do they get their color
That’s freaking awesome
This reminds me of this “crazy fire” product I bought when I was a kid. It was essentially all these salts mixed together and a purple salt which we threw in a camp fire to make a rainbow camp fire.
Lithium chloride & copper & strontium are my favs! ❤
Can you make it white it would be so cool
Now that u chose ur color. Choose ur lightsaber
Who saw struggling for half a second: why is my potassium not purple? 😂
Scientists can relate
Yeah 😂
You don't need to be a scientist for this, it's just basic HS chemistry
@@nemesheesh897 I believe what he meant isnt about potassium color. It is about inconsistency of theory and actual result. Which most scientist could relate (In which that also their field). Well, I am not saying HS student could not relate, but I hope you got what I meant.
@@xalovaid3693 Oh I get it now
You have the same pfp as @KnowArt
Try uranium in part 2
Mix them all together and you get rainbow fire😊 it was one of the greatest things ive seen ❤
This was my favorite lesson of physical science
My 11th grade Chemistry teacher on a random Thursday:
So if you mixed two elements that give off different coloured flames (let’s say blue and yellow) would that compound emit a green flame too when burned?
Best I can do is jump to a higher energy level
Sodium lights is how Disney did the special effects for Mary Poppins back in the day as they could use a filter to remove that color from the background and then had another camera that was aimed at a special prism being used with this filter to have only the yellow color showing on that film, making it so there was a map of where the animations for each frame would need to be and unlike with modern green screens this methode also preserved transparant effects from clothing (lace, frills, etc) and from where your hair parts when it moves around. Cool how this same scientific knowledge can be used in such varied applications.
Thanks for going into it, I'm a fan
Uncle we casually learnt that in Doctor stone episode 2 🤣🤣🤣
Was thinking the same thing 😂
RAINBOW BRIDGE!!!! 🔥
@@jericodimaano97 yesssss
Was looking to see if anyone said that
Copper gives the auroras vibes☺️
What about gold, purple, blue and pink fireworks?
Purple: potassium salt
Blue: copper (I) salt
Pink: lithium chloride
Gold: Sodium salt
( + my fav) green: copper (II) salt
Dr Stone?
No he is Dr walter white he's a chemistry teacher and a drug maker (not actually this guy he's from breaking bad series) not Dr stone he's just a young man tho😅
What color would uranium be? Asking for a friend...
It glows blue my friend with black body radiation
@@swapankumarbagchi3876 I thought it only did that in water and it was a different nuclear isotope not uranium?
@@LachlanJeffreyDrewthat’s Cherenkov radiation which is from high energy particles moving faster than the speed of light in that medium
Thank you sir😊
How is this on the lungs?
Not bad…. It’s pretty trace in the air
Oh no, we’ve got a RUclips scientist doomsday prepper in the comments.
I smoke copper and I’m still alive
This is how we found out the elements of the sun and why we have no idea what is inside a black hole.
What about uranium chloride??
Woww so beautiful to see them
I like the strontium flame.🔥🔥🔥
What about pink?
did you even try watching the video
Dude. Watch the vid
I did there was no pink
@alex_shadow_is_me Lithium chloride, it's the second one, its Redish hot pink
what about uranium?
😈
Thanks! Imma light my phone battery on fire and see if it turns red!
Help house gone
@@TheRainWorldCreature bro don't involve us please
😂😂😂@@TheRainWorldCreature
The flame of lithium chliride and Copper are fascinating 😍😍
What about magnesium
I think it burns a bright white color (don’t stare at it)
White and it can damage your eyes
Very, very bright white color. It WILL damage your eyes.
Potassium should burn lilac/purple, no? I suspect your potassium is contaminated with sodium.
Yea?
I braze copper pipes for hvac and it pretty dang cool to see that green flame come thought once it’s hot enough
This is my class 10 science exhibition topic colouration of flames❤
Question is WHY do different elements give off different colors?
This is a high school chemistry question
It’s to do with the difference between energy levels that the excited electrons travel between. The difference between these levels is unique for every element
@@ethanhogg1098don’t think that’s what he meant lol
@@eddiedelgado7725It is bruv. Flame tests rely on the energy required for the valence electrons of said element to go into the excited state. That high energy from the flame on it makes them emit light in the coloured spectrum as in the visible region.
@@mlyw7918if you know, tell us! Don t speak like zutupod!!!
Now do Uranium🤓
😂
sayonara
Bro just inhaling allat
We do these in our chemistry practical lab ❤ and its so amazing for us❤
Aight, I'm making a lightsaber out of this
Agreed lol 😂
If I remember correctly the hacksmith made a handheld version of this that does exactly what you’re looking for
So red or yellow or orange….Like normal fire…but sometimes greenish blue…which is kinda normal fire too.
So?
This is something we should all learn about not bullshit
if you took chemisty in highschool, you did learn it
Blue you can try breaking or changing my race , but cannot break my spirit, because am Blue 🔵
Now do magnesium
Magnesium is rather boring for the flame test, its salts do not give any notable color. The bright white, uv-rich light of burning magnesium metal is something different.
Copper : Avadaa Kadavraa
Godzilla
Red one is really fire 🔥
literally
Green Ace is the Best Color 💕
My favourite also green 💚 flame 🔥 copper
U are great I am amazed to this kind of practical given by you
This understanding is the basis for amazing fireworks...
Lithium chloride and copper gives very beautiful colour of flame ❤💚
Nice! but here's a simple and delicious vanilla cake recipe for you to try:
Classic Vanilla Cake Recipe
Ingredients
For the Cake:
2 ½ cups all-purpose flour
2 ½ tsp baking powder
½ tsp salt
1 cup unsalted butter, softened (2 sticks)
2 cups granulated sugar
4 large eggs
1 tbsp vanilla extract
1 cup whole milk
For the Buttercream Frosting:
1 cup unsalted butter, softened (2 sticks)
4 cups powdered sugar
1 tsp vanilla extract
2-4 tbsp milk (adjust for desired consistency)
Instructions
1. Preheat the Oven:
Preheat your oven to 350°F (175°C). Grease and flour two 9-inch round cake pans.
2. Prepare Dry Ingredients:
In a medium bowl, whisk together the flour, baking powder, and salt. Set aside.
3. Cream Butter and Sugar:
In a large mixing bowl, beat the softened butter and granulated sugar together with an electric mixer on medium speed until light and fluffy (about 3-5 minutes).
4. Add Eggs and Vanilla:
Add the eggs one at a time, beating well after each addition. Then, mix in the vanilla extract.
5. Combine Dry and Wet Ingredients:
Gradually add the flour mixture to the butter mixture, alternating with the milk, starting and ending with the flour mixture. Mix until just combined. Do not overmix.
6. Bake the Cakes:
Divide the batter evenly between the prepared cake pans. Bake in the preheated oven for 25-30 minutes, or until a toothpick inserted into the center comes out clean.
7. Cool the Cakes:
Allow the cakes to cool in the pans for about 10 minutes before turning them out onto a wire rack to cool completely.
8. Make the Buttercream Frosting:
In a large mixing bowl, beat the softened butter until creamy. Gradually add the powdered sugar, one cup at a time, mixing on low speed until combined. Add the vanilla extract and 2 tablespoons of milk. Beat on high speed until light and fluffy, adding more milk if needed to reach the desired consistency.
9. Assemble the Cake:
Once the cakes are completely cool, place one layer on a serving plate. Spread a layer of frosting on top, then place the second layer on top. Use the remaining frosting to cover the top and sides of the cake.
10. Decorate:
Feel free to decorate your cake with sprinkles, fresh fruit, or any other decorations of your choice!
Enjoy Your Cake!
Slice and serve your delicious vanilla cake! It pairs wonderfully with coffee or tea. Enjoy!
Simple?😅
This is called flame photometry used for analysis to detect elements by their colour
My favourite is copper
I did this in school and it was soooooo coollllllllllll
Good explanation 👍
The last green one isn’t copper, it’s Floo powder... 🧙🏻♂️🧹✨
Sir from my school times, i wonder what's a fire? What kinda matter it is? How different thing can give different colour? Is there a chemical combination for it? If yes then what's the colour of it?
In chemistry rn, good to know! I already knew Copper makes a lovely green, but never the other elements, fascinating!
Is there anything for rosé? I kind of have a plan
So I know certain elements don’t mix, but can you mix some element to get different colors. Like purple for example
You can use sodium carbonate for yellow too. Its baking powder, just in case you dont want to buy chemicals.