How to Draw Salesman from Squid Game 🔥🥶

"Add a few more details." ahh moment

jokes aside, your art is amazing

gaferknife

He makes it look so easy
Really good 👍

OMG 544 LIKES

SkidopopSkidopop

Bro's sketching skills: 😎👌
Bro's shading skills: 💀🔥

_R.E.A.L

You visualise things perfectly and draw them perfectly wow 👌

ZillMohammed-yd

Salesman is my favourite character in squid game😊

MadhavanNarayanan-jb

The art is amazing but the real life is even better ❤❤❤❤

karmaeissa

Plsss can you draw mongolia like your shorts😊

nasanbatnyamgerel

Thats cool, anyway, information about particle accelerator: Building a particle accelerator is an extremely complex and highly specialized task that requires significant knowledge in physics, engineering, and advanced technology. Particle accelerators are used to accelerate charged particles to high speeds, often approaching the speed of light, and are used in various scientific fields, including physics research, medical treatments, and materials science.

Here are the basic steps and concepts involved in the creation of a particle accelerator:

1. Determine the Purpose: Decide the type of particle accelerator you want to build. There are different types, such as linear accelerators (linacs) and circular accelerators (synchrotrons). The purpose of the accelerator, like particle physics experiments or medical treatments, will influence your design.
2. Designing the Accelerator:

Vacuum System: A vacuum chamber is required to reduce the interaction of the accelerated particles with air, which could slow them down or scatter them. The vacuum system also helps to control the environment where the particles travel.

Particle Source: A particle source is necessary to create the initial particles (electrons, protons, ions, etc.). In a linac, this could be an electron gun, while in a synchrotron, it might be an ion source.

Electromagnetic Fields: Particle accelerators use electric and magnetic fields to accelerate and steer the particles. Linear accelerators typically use oscillating electric fields, while circular accelerators use both electric and magnetic fields to guide particles in circular orbits.

Accelerating Structure: This component uses electromagnetic fields (created by RF cavities, for example) to increase the energy of the particles. In a linac, the particles move through a series of accelerating cavities. In a synchrotron, radiofrequency (RF) cavities are used to accelerate the particles as they travel in a ring.
3. Build or Obtain Components:

You'll need powerful magnets, high-frequency RF generators, vacuum pumps, and beam diagnostics equipment. These components are expensive and require precision engineering to ensure they work together seamlessly.

4. Safety Considerations: Particle accelerators generate

significant radiation, which can be hazardous. Extensive safety protocols must be followed to protect workers and the environment. This includes radiation shielding, safety interlocks, and monitoring systems.

5. Energy Supply and Power Systems: Particle accelerators require a substantial amount of energy to operate, particularly in the case of large-scale machines like synchrotrons. The power systems must be able to deliver high amounts of energy reliably.
6. Cooling Systems: Accelerators generate a lot of heat due to the electrical components and magnets. A cooling system is essential to prevent overheating.

7. Beam Control and Detection: Once the particles are

accelerated, you need systems to detect and control the particle beam. This could involve particle detectors, beam scanners, or other measurement tools to monitor the performance of the accelerator.

Important Considerations:

Cost: Particle accelerators can be extremely expensive to build and operate, especially large-scale ones.

Complexity: The engineering and scientific expertise required are advanced and typically beyond the reach of most DIY or small-scale projects.
Important Considerations:

Cost: Particle accelerators can be extremely expensive to build and operate, especially large-scale ones.

Complexity: The engineering and scientific expertise required are advanced and typically beyond the reach of most DIY or small-scale projects.

Legal and Ethical Issues: Depending on the size and use of the

particle accelerator, there may be legal regulations regarding radiation and safety.

If you are looking to experiment or learn about particle acceleration, a more practical approach is to study existing designs and perhaps build a small, tabletop linear accelerator (sometimes used for educational purposes) that is safe and manageable in scale. However, for a full-scale accelerator, it typically requires significant collaboration with research institutions, universities, or government labs

Frostyiiii

Oh my God when I tried to do this mine turned out very good. I think it’s my favorite one. I like subscribe this art that he made it so good I’m shocked.😮

Cutiestar-kn

Ben denedim oluyor. Ve çok güzel oldu♥️♥️

Eybepro-A

Ayooo that's actually beautiful ❤❤❤❤

Syed_Asif