Nashville Hot Mozzarella Sticks in my room #shorts

the heavy handed seasoning gives me life

Im_My_Own_Person

That crunch, though, brought a tear to my eye😢

lewishowl

It took me a while to realize he was watching hunger games💀

_Yourlocalpossum_

In my opinion, it's one of your best videos yet! Thanks for always making these videos.

coopererskine

watching the hunger games while cooking is the realest thing ever

evixlia

“KAYLEE, KAYLEE, KAYLEE IT REALLY STINK IN HERE KAYLEE”

pinkflower

I secretly think youre a chef pretending a student in a dorm making videos for content and show how good youre skills are

carljadecahilig

God damn that Crytal Pepsi came out of no where unexpected like s number 30 royal rumble entrant

Chthonian

Roommate: what is all that noise??

Him: *CLANK*CHOP*CLING

K-Pop_Jo

I can see all the hard work behind it good job man

Eunoia-ni

I’m glad that spicy mozzarella sticks have been getting as popular as they deserve, it’s an amazing combo of flavors

mosura

I wish I could eat the stuff you make it looks so good

Blake_H

Everything you make looks so delicious😋

IAmTree

Watching the Hunger Games while making food is

trynabeabiiii

That’s cool, anyway, how to build a particle accelerator:

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.

atatlenny

He knows how to season his food that's what I like about a person

May_happen

I know the person next door also saying “what’s that noise” everytime😭😭👌

ImkingEditzz

some advice to prevent the cheese from disintegrating, freeze it solid before cooking it. this will prevent the cheese from melting by the time the breading is cooked.

chloekaftan

I love the Hunger Games and this video together

GAnimatez-qh

Other people hate on your videos but I love them they’re satisfying

Kingjaydagoat