That’s nice now have this thing I have in my clip board about how to build a particle accelerator pasted right here for some reason How to build a particle accelerator 1:get a particle source, to start you need a source of charged particle. Protons are a common choice, and they can be created by stripping electrons from hydrogen atoms, leaving positively charged protons behind. Alternatively you could use electrons,which can be generated by using a simple cathode or electron gun. The type of particle you choose depends on the kind of experiments or applications you have in mind 2. Build a Vacuum Chamber: The particle accelerator needs a vacuum environment for particles to travel without hitting air molecules. Even small interactions with air can slow the particles down or knock them off course. To create this, build a long,sealed metal tube and use a vacuum pumps to remove as much air as possible, achieving near-vacuum conditions. This tube is where particles will travel during acceleration. 3. Install Electromagnets for steering and focusing: charged particles don’t naturally travel in straight lines, so electromagnets are used to steer and focus the particle beam. Wrap copper wire into coils (solenoids) or use specialized electromagnets around sections of the vacuum chamber. These magnets will bend and direct the particles, especially in circular or curved accelerators like a cyclotron or synchrotron. The magnets also focus the beam so it doesn’t spread out as it travels. 4. Add RF cavities for Acceleration: The particles need to be accelerated to near the speed of light for many experiments. This is done using radio frequency (RF) cavities, which create oscillating electric fields. As particles pass through each cavity, the field gives them an extra “kick” of energy, speeding them up. You need to set up multiple RF cavities along the vacuum tube if you’re building a linear accelerator, or place them strategically in circular designs like synchrotrons to increase the particles energy with every lap. 5. Set up a high voltage power supply: to power the RF cavities and electromagnets, you’ll need a high voltage power supply. It must be carefully controlled and synchronized to ensure that the RF fields accelerate the particles at the right time, and that the electromagnets are properly tuned to guide them. Depending on the scale of your accelerator, the power requirements could be substantial 6. Install detectors to measure particles: once the particles are moving at high speeds, you’ll want to monitor their behavior, especially if you’re aiming for collisions. Detectors are placed around the end of the accelerator or at key points where the particle beam will interact with the targets. These detectors can measure things like particle energy, trajectories, or the results of particle collisions if you’re performing experiments. 7. Add cooling systems: if your accelerator is large or uses super conducting magnets, you’ll need cooling systems such as liquid helium, to keep the magnets at cryogenic temperatures. Superconductors lose all electrical resistance at the temperatures, allowing for extremely efficient and powerful magnets. Even if your setup doesn’t require superconductors, cooling may be necessary to prevent overheating in the RF cavities and electromagnets 8. Set up a computer controlled system: since many aspects of the accelerator need precise timing and synchronization, you’ll need a computer to control the RF cavities, power supply, and magnets. The system will automatically adjust the power and electro magnetic ceilings in real time to ensure the particles remain on track and accelerate smoothly. This computer also collects data from the detectors and can adjust the experiment based on results. 9. Test and calibrate the system: once everything is in place it’s time to test the accelerator. Initially, you’ll fire low energy particles through the system to check if the vacuum, magnets, and RF cavities are working correctly. You may need to tweak the alignment of the magnets and fine tune the power settings to ensure the particle beam accelerates efficiently. During this stage, data from the detectors will help you see if the particles are reaching the expected speeds. 10. Run experiments or particle collisions: once the accelerator is fully functional, you can start running experiments. In a particle collider, for example, you can direct two particle beams to collide at extremely high speeds, creating conditions similar to those just after the Big Bang. The detectors will capture the resulting particles and interactions, allowing you to study fundamental physics. If you’re not colliding particles, you can still study their behavior at high speeds or use them to hit a specific target.
Make a lanscape with dirt,water,sand,fish and then make the square cursor thing max size and incinerate then cold fire makes light show also use cold fire more than once
heres how to download, 1: go to the channel description 2: click the link 3: press the box with an arrow pointing out 4: select “Make Bookmark” 5: you have sandboxels!
1. Get a Particle Source: To start, you need a source of charged particles. Protons are a common choice, and they can be created by stripping electrons from hydrogen atoms, leaving positively charged protons behind. Alternatively, you could use electrons, which can be generated using a simple cathode or electron gun. The type of particle you choose depends on the kind of experiments or applications you have in mind. 2. Build a Vacuum Chamber: The particle accelerator needs a vacuum environment for particles to travel without hitting air molecules. Even small interactions with air can slow the particles down or knock them off course. To create this, build a long, sealed metal tube and use vacuum pumps to remove as much air as possible, achieving near-vacuum conditions. This tube is where the particles will travel during acceleration. 3. Install Electromagnets for Steering and Focusing: Charged particles don’t naturally travel in straight lines, so electromagnets are used to steer and focus the particle beam. Wrap copper wire into coils (solenoids) or use specialized electromagnets around sections of the vacuum chamber. These magnets will bend and direct the particles, especially in circular or curved accelerators like a cyclotron or synchrotron. The magnets also focus the beam so it doesn't spread out as it travels. 4. Add RF Cavities for Acceleration: The particles need to be accelerated to near the speed of light for many experiments. This is done using radio frequency (RF) cavities, which create oscillating electric fields. As particles pass through each cavity, the field gives them an extra "kick" of energy, speeding them up. You need to set up multiple RF cavities along the vacuum tube if you’re building a linear accelerator, or place them strategically in circular designs like synchrotrons to increase the particles’ energy with every lap. 5. Set Up a High-Voltage Power Supply: To power the RF cavities and electromagnets, you’ll need a high-voltage power supply. It must be carefully controlled and synchronized to ensure that the RF fields accelerate the particles at the right time, and that the electromagnets are properly tuned to guide them. Depending on the scale of your accelerator, the power requirements could be substantial. 6. Install Detectors to Measure Particles: Once the particles are moving at high speeds, you’ll want to monitor their behavior, especially if you're aiming for collisions. Detectors are placed around the end of the accelerator or at key points where the particle beam will interact with targets. These detectors can measure things like particle energy, trajectories, or the results of particle collisions if you’re performing experiments. 7. Add Cooling Systems: If your accelerator is large or uses superconducting magnets, you’ll need cooling systems, such as liquid helium, to keep the magnets at cryogenic temperatures. Superconductors lose all electrical resistance at these temperatures, allowing for extremely efficient and powerful magnets. Even if your setup doesn’t require superconductors, cooling may be necessary to prevent overheating in the RF cavities and electromagnets. 8. Set Up a Computer-Controlled System: Since many aspects of the accelerator need precise timing and synchronization, you’ll need a computer to control the RF cavities, power supply, and magnets. The system will automatically adjust the power and electromagnetic fields in real-time to ensure the particles remain on track and accelerate smoothly. This computer also collects data from the detectors and can adjust the experiment based on results. 9. Test and Calibrate the System: Once everything is in place, it’s time to test the accelerator. Initially, you’ll fire low-energy particles through the system to check if the vacuum, magnets, and RF cavities are working correctly. You may need to tweak the alignment of the magnets and fine-tune the power settings to ensure the particle beam accelerates efficiently. During this stage, data from the detectors will help you see if the particles are reaching the expected speeds. 10. Run Experiments or Particle Collisions: Once the accelerator is fully functional, you can start running experiments. In a particle collider, for example, you can direct two particle beams to collide at extremely high speeds, creating conditions similar to those just after the Big Bang. The detectors will capture the resulting particles and interactions, allowing you to study fundamental physics. If you’re not colliding particles, you can still study their behavior at high speeds or use them to hit a specific target.
OH HEY!!! i was that guy who wanted antimatter to be in the game and also said antimatter could be made with a particle accelerator, though the antimatter part is missing, anyways, a positron is enough after all. [just rename it to antimatter]
I get you meant they collide to make diatomic hydrogen but my little chemist heart was stabbed with the accidental implication that protons themselves are not already hydrogen
![Felix "Unfair" | [Stray Kids : SKZ-PLAYER]](http://i.ytimg.com/vi/Oswujxm2Ag0/mqdefault.jpg)
now make sandboxels inside of sandboxels
Simple physics
It's just simple physics you gotta be dumb enough to not understand this
Basic features
You can make infinite plasma with a charged Tesla coil💀
@@Nukovm really? How
WERE IS MY ENRICHED URANIUM RAHHHHHHH
I NEED DEADLY SUBSTANCE
It’s in a mod called chem.js
At it all mb
Did Bro just turn into 🦅🦅🦅🦅
@@Fyz_ManusiaI think he🦅🦅🦅🦅🦅🦅
"This game has everything" i'm not convinced until i see ultrakill
Edit: HOLY SHIT I SUMMONED THE WHOLE GAME
+RICOSHOT X3
+FIST FULL OF CHANGE
@@The-watcher-of-eyes +FIST FULL OF DOLLAR*
@@Cowboybeardie i havent played in a while
+ULTRARICOSHOT X32
Alright now make a particle accelerator 😊
for real he made this whole setup just to make hydrogen and burn it
Nah make it irl 😁
You blind? He just made it
@@TheGunRatCheezed You stupid? He didn’t make it.
@@TheGunRatCheezed no, he didnt. A particle accelerator would have had them go all the way around the loop at least once
ever since i started watching you, now i like playing sandboxels a lot, and i even played it during IT class in school!1!1!!!1!1!1
Same
Jacob how are you here aswell
I remember how sad I was when it got blocked at my school
Bro just summoned the portal fandom
Yeah.
it is weird hearing the song in good quality but it sounds so good
this song makes me wanna do pushups tbh
And you almost postal cuz the name
@@Nico-g12Oh no...
WE RELEASING NEUROTOXIN IN A SCIENCE BASE WITH THIS ONE🗣️🗣️🗣️🔥🔥🔥🔥💯💯💯💯
ONG‼️‼️🔥🔥
A deadly neurotoxin! ATTACH THE MORRALITY CORE!!
That’s nice now have this thing I have in my clip board about how to build a particle accelerator pasted right here for some reason
How to build a particle accelerator
1:get a particle source, to start you need a source of charged particle. Protons are a common choice, and they can be created by stripping electrons from hydrogen atoms, leaving positively charged protons behind. Alternatively you could use electrons,which can be generated by using a simple cathode or electron gun. The type of particle you choose depends on the kind of experiments or applications you have in mind
2. Build a Vacuum Chamber: The particle accelerator needs a vacuum environment for particles to travel without hitting air molecules. Even small interactions with air can slow the particles down or knock them off course. To create this, build a long,sealed metal tube and use a vacuum pumps to remove as much air as possible, achieving near-vacuum conditions. This tube is where particles will travel during acceleration.
3. Install Electromagnets for steering and focusing: charged particles don’t naturally travel in straight lines, so electromagnets are used to steer and focus the particle beam. Wrap copper wire into coils (solenoids) or use specialized electromagnets around sections of the vacuum chamber. These magnets will bend and direct the particles, especially in circular or curved accelerators like a cyclotron or synchrotron. The magnets also focus the beam so it doesn’t spread out as it travels.
4. Add RF cavities for Acceleration: The particles need to be accelerated to near the speed of light for many experiments. This is done using radio frequency (RF) cavities, which create oscillating electric fields. As particles pass through each cavity, the field gives them an extra “kick” of energy, speeding them up. You need to set up multiple RF cavities along the vacuum tube if you’re building a linear accelerator, or place them strategically in circular designs like synchrotrons to increase the particles energy with every lap.
5. Set up a high voltage power supply: to power the RF cavities and electromagnets, you’ll need a high voltage power supply. It must be carefully controlled and synchronized to ensure that the RF fields accelerate the particles at the right time, and that the electromagnets are properly tuned to guide them. Depending on the scale of your accelerator, the power requirements could be substantial
6. Install detectors to measure particles: once the particles are moving at high speeds, you’ll want to monitor their behavior, especially if you’re aiming for collisions. Detectors are placed around the end of the accelerator or at key points where the particle beam will interact with the targets. These detectors can measure things like particle energy, trajectories, or the results of particle collisions if you’re performing experiments.
7. Add cooling systems: if your accelerator is large or uses super conducting magnets, you’ll need cooling systems such as liquid helium, to keep the magnets at cryogenic temperatures. Superconductors lose all electrical resistance at the temperatures, allowing for extremely efficient and powerful magnets. Even if your setup doesn’t require superconductors, cooling may be necessary to prevent overheating in the RF cavities and electromagnets
8. Set up a computer controlled system: since many aspects of the accelerator need precise timing and synchronization, you’ll need a computer to control the RF cavities, power supply, and magnets. The system will automatically adjust the power and electro magnetic ceilings in real time to ensure the particles remain on track and accelerate smoothly. This computer also collects data from the detectors and can adjust the experiment based on results.
9. Test and calibrate the system: once everything is in place it’s time to test the accelerator. Initially, you’ll fire low energy particles through the system to check if the vacuum, magnets, and RF cavities are working correctly. You may need to tweak the alignment of the magnets and fine tune the power settings to ensure the particle beam accelerates efficiently. During this stage, data from the detectors will help you see if the particles are reaching the expected speeds.
10. Run experiments or particle collisions: once the accelerator is fully functional, you can start running experiments. In a particle collider, for example, you can direct two particle beams to collide at extremely high speeds, creating conditions similar to those just after the Big Bang. The detectors will capture the resulting particles and interactions, allowing you to study fundamental physics. If you’re not colliding particles, you can still study their behavior at high speeds or use them to hit a specific target.
Did you make it?
no way now you can make a particle accelerator now in this game
That's not a particle accelerator
Not even close
@@sandwan4845 the creator said it is
@@MicahMotion do you even know whats a particle accelerator its pretty accurate for a sandbox game
@@5cats_s Those particles were not accelerating nearly fast enough for it to be considered a particle accelerator
This music gives me memories from a certain Elevator.
We making the flash with this one🗣️
Fr
yall the game is called Sandboxels for gods sake
If it on steam? If so, does it cost money?
@@Newbie131its a browser game, search it up on google and youll be able to play it
@@Newbie131it is free I'm on phone rn so i used google to go to the website
It's a browser @@Newbie131
@@Newbie131no it's a free web game
*Radio music gives you flashbacks
APERTURE SCIENCE!! YEEEAAAA :D
This is so satisfying I could watch this for 5 hours and 18 minutes
and maybe for 48 seconds?
good choice of music
Love the portal music
No way… HE HAS DONE IT! HE IS THE MESSIAH
This is the best song in existence.
For god sake wheres the electrons
use eletric
I said for God sake so shiva should reply...@@Abloxfruitsyoutuber
We wakin up the flash fandom with this🗣🗣🔥🔥🔥
When i seen the word "proton" i immediately think of proffesor proton
Lol
proton the alternative version of wine
Proffesor proton@@Nillified
@@SCARED_CAT-AHHHHH emo arc
@@Nillified i am not emo
Nostalgia is hitting hard
Im vibing with this song lol
Truly an Aperture Science fitting video
AS A PARTICLE ACCELERATOR ENTHUSIAST, YIPPIEEEEEEEEE!!!!!!
Bros the reverse flash
“this game has everything” show me the fabric of reality and I’ll be convinced
Make a lanscape with dirt,water,sand,fish and then make the square cursor thing max size and incinerate then cold fire makes light show also use cold fire more than once
Tried it and it's so satisfying!
I don't understand anything tbh😭
If they create a Doom in Sandboxels, I won't be surprised
Girl ty for it I can play that forever now!
(This is the most likes I got!)
Girl?
Its a guy i think wnd im pretty sure its not a girl
@@Canman729 its just a name ppl use
Whats the name of it
@@luizphelipeoliveiramoraes8953 Sandboxels its in the video
It’s all fun and games until somebody asks for life 💀
there is life, a lot of it
Can you add black holes?
They're like void. But they pull anything to it
WE DOING PUSHUPS WITH THIS ONE🗣️🗣️🗣️🔥🔥
toilet with real flush, or the really impossible thing, GRAVITY
bro wdym gravity is already there
Yayy that was cool! Can you make a particle accelerator next?
*me just vibing to the portal ost*
Bro went from making foods to a whole particle accelerator 💀
What is this game called
sandbloxels
An working car “this has to be impossible”
Name of game?
sandbloxels
heres how to download,
1: go to the channel description
2: click the link
3: press the box with an arrow pointing out
4: select “Make Bookmark”
5: you have sandboxels!
@@kaideneurizcalderon2478step 3 and 4 are unnecessary
Make a living, breathing human that needs food, water, and air to live.
We are not getting the cake with this one 🗣️🔥🔥💀☠️☠️
This music sounds like it would play in an artist studio in a shopping mall in Dallas Texas
R74N its good to see u out here
portal music 🔥🔥🔥🔥
When i saw the thumbnail i thought it's a wedding ring
We be rocking this portal music
bro is litterally sheldon cooper irl
Were not gonna be morons with this one 🔥🔥🔥
I. AM. NOT A MORON.
“This game has everything”
My dad:
Soo good 🎉🎉❤
I actually collided protons together in this game with my Gas Collider 2!
So here's the Gas Collider 2, I recently used it for what happens when u collide two protons together? Or even collide gases to form new ones.
this thing better have the declaration of Independence
Bro really woke up and said “I CAN BUILD ANYTHING”
1. Get a Particle Source: To start, you need a source of charged particles. Protons are a common choice, and they can be created by stripping electrons from hydrogen atoms, leaving positively charged protons behind. Alternatively, you could use electrons, which can be generated using a simple cathode or electron gun. The type of particle you choose depends on the kind of experiments or applications you have in mind.
2. Build a Vacuum Chamber: The particle accelerator needs a vacuum environment for particles to travel without hitting air molecules. Even small interactions with air can slow the particles down or knock them off course. To create this, build a long, sealed metal tube and use vacuum pumps to remove as much air as possible, achieving near-vacuum conditions. This tube is where the particles will travel during acceleration.
3. Install Electromagnets for Steering and Focusing: Charged particles don’t naturally travel in straight lines, so electromagnets are used to steer and focus the particle beam. Wrap copper wire into coils (solenoids) or use specialized electromagnets around sections of the vacuum chamber. These magnets will bend and direct the particles, especially in circular or curved accelerators like a cyclotron or synchrotron. The magnets also focus the beam so it doesn't spread out as it travels.
4. Add RF Cavities for Acceleration: The particles need to be accelerated to near the speed of light for many experiments. This is done using radio frequency (RF) cavities, which create oscillating electric fields. As particles pass through each cavity, the field gives them an extra "kick" of energy, speeding them up. You need to set up multiple RF cavities along the vacuum tube if you’re building a linear accelerator, or place them strategically in circular designs like synchrotrons to increase the particles’ energy with every lap.
5. Set Up a High-Voltage Power Supply: To power the RF cavities and electromagnets, you’ll need a high-voltage power supply. It must be carefully controlled and synchronized to ensure that the RF fields accelerate the particles at the right time, and that the electromagnets are properly tuned to guide them. Depending on the scale of your accelerator, the power requirements could be substantial.
6. Install Detectors to Measure Particles: Once the particles are moving at high speeds, you’ll want to monitor their behavior, especially if you're aiming for collisions. Detectors are placed around the end of the accelerator or at key points where the particle beam will interact with targets. These detectors can measure things like particle energy, trajectories, or the results of particle collisions if you’re performing experiments.
7. Add Cooling Systems: If your accelerator is large or uses superconducting magnets, you’ll need cooling systems, such as liquid helium, to keep the magnets at cryogenic temperatures. Superconductors lose all electrical resistance at these temperatures, allowing for extremely efficient and powerful magnets. Even if your setup doesn’t require superconductors, cooling may be necessary to prevent overheating in the RF cavities and electromagnets.
8. Set Up a Computer-Controlled System: Since many aspects of the accelerator need precise timing and synchronization, you’ll need a computer to control the RF cavities, power supply, and magnets. The system will automatically adjust the power and electromagnetic fields in real-time to ensure the particles remain on track and accelerate smoothly. This computer also collects data from the detectors and can adjust the experiment based on results.
9. Test and Calibrate the System: Once everything is in place, it’s time to test the accelerator. Initially, you’ll fire low-energy particles through the system to check if the vacuum, magnets, and RF cavities are working correctly. You may need to tweak the alignment of the magnets and fine-tune the power settings to ensure the particle beam accelerates efficiently. During this stage, data from the detectors will help you see if the particles are reaching the expected speeds.
10. Run Experiments or Particle Collisions: Once the accelerator is fully functional, you can start running experiments. In a particle collider, for example, you can direct two particle beams to collide at extremely high speeds, creating conditions similar to those just after the Big Bang. The detectors will capture the resulting particles and interactions, allowing you to study fundamental physics. If you’re not colliding particles, you can still study their behavior at high speeds or use them to hit a specific target.
Idea: make humans 14 pixels instead of 2 and make them able to interact with stuff like wood water and food
I don't belive that this game has a cute kawaii cat that welcomes u when u join the game! >:O
“Me looking at the shape”
Ok here me out-
Now make a functional cat, organs, mouth and everything.
fun fact: you can make anything with mods or the image tool
Sheldon Cooper talking notes:
“ Take the protons and the electrons, smash them together in a chamber and push out the mass. Atomic technique: Hydrogen. “
lol we are learning about particle and quantum physics. This isn’t too accurate but it’s good for a little game
Cool cool but can you make a drawing pencil? Thats smth I bet I can’t make
The song it reminds me of the elevator in Roblox that gives me chills
Everyone: PORTAL unfillter
Me: DORA the explora
Harrison wells joined the server
OH HEY!!! i was that guy who wanted antimatter to be in the game and also said antimatter could be made with a particle accelerator, though the antimatter part is missing, anyways, a positron is enough after all. [just rename it to antimatter]
antimatter is in Special!
@@R74n i mean the particles like antiproton and antineutron lol
Make the marvel cinematic universe
ALL OF IT, EVERY SINGLE MOVIE, EVERY SINGLE SERIES
"That's like using a shotgun for a haircut"
"this game has everything!"
Yeah no im not convinced until you make a magnet alloy. Not the thing, but the whole alloy. NOW.
I feel informed, now I'll make a real one.
What you can't make is an engine! Add an option where you can switch to dynamic and static physics
We got a working particle accelerator in a random sandbox game before gta 6💀💀
It isn't a particle accelerator,it's a hydrogen maker
i love this game so much
Blus even knows how to make it
This song traumatized me
I wanna see you create a functional circut, that activates a light, with three brightness settings
This this audio is nostalgic
Doesn’t have everything until you can run the bad Apple Music video in it.
if this sandbox can make working engines with pistons, I am downloading it.
i’m not convinced until i see doom
Oh yeah, make a solar-powered generator!
now make a nuke that when it explodes it realeases a condensed beam of Nucular power
you should make a galvanized square steel with eco friendly wood veneer with screws borrowed from your aunt
No… NONONONO, MOT THIS SOUND-
Next goal for me is to make a functional bioreactor
Chambers like test chambers
I feel the needd to point out that this is not a particle accelerator. It doesn't accelerate the particles, and has no magnetic field
I get you meant they collide to make diatomic hydrogen but my little chemist heart was stabbed with the accidental implication that protons themselves are not already hydrogen
Sandboxels Tips:
1. Instead of Using Plasma to melt materials, Use Incinerate Tool.
Man made a particle accelerator💀
A double barrel shotgun loaded with incendiary rounds
I challenge you to make a 2-8-0 steam locomotive!
Must based assistant in bar in SS13:
That's not a particle accelerator, but it's still cool.
oh THAT'S how you use pipe
Still waiting for cocaine to be added
Thats just a pipe with protons and electrons
Idea: SPEEDY PIPE for real particle ACCELERATOR
Thawn spend years trying to make a particle accelerator while this guy made it in seconds
Absolute solver be like