@@Noobfessiona Friction is a force that opposes the relative motion of two surfaces in contact. It plays a fundamental role in everyday life and technological applications, influencing everything from walking to machinery operation. Understanding friction involves examining its microscopic interactions, types, effects, and ways to manage it. At the microscopic level, friction results from the roughness and irregularities of surfaces. When two surfaces come into contact, their microscopic high points, or asperities, interact, creating resistance to motion. Even seemingly smooth surfaces have microscopic irregularities contributing to friction. These interactions at the molecular level lead to the forces we experience as friction. Friction can be categorized into two main types: static and kinetic. Static friction acts on objects that are not moving, preventing them from starting to move. It must be overcome by an applied force to initiate motion. Kinetic friction occurs when objects are already in motion and is usually less than static friction, making it easier to keep an object moving than to start its movement. The coefficients of static and kinetic friction quantify these forces, with static friction having a higher coefficient than kinetic friction for the same material pair. The coefficient of friction is a dimensionless number representing the ratio of the frictional force between two objects to the normal force pressing them together. This coefficient varies depending on the materials in contact and their surface conditions. For example, rubber on asphalt has a higher coefficient of friction than ice on steel. The coefficient of friction is crucial in designing systems where control of friction is essential, such as in braking systems, machinery, and everyday objects like shoes and tires. Friction also generates heat due to the energy dissipated as surfaces rub against each other. This conversion of kinetic energy into thermal energy can have significant effects. In mechanical systems, excessive heat generation due to friction can lead to overheating and damage to components. Managing friction and heat generation is vital in many engineering applications. Lubrication is a common method to reduce friction and heat, using substances like oil or grease to create a thin, smooth layer between surfaces, minimizing direct contact and thus friction. Despite its often negative connotation as a force that opposes motion, friction is essential for many practical purposes. It allows us to walk without slipping, cars to grip the road, and objects to be held firmly. Engineers and designers continuously work to optimize friction in various applications, balancing the need for grip and control with the desire to reduce wear and energy loss. Advances in materials science and tribology, the study of friction and wear, continue to enhance our ability to manage friction effectively. In conclusion, friction is a complex and multifaceted force that plays a crucial role in both everyday life and advanced technological systems. By understanding its microscopic origins, different types, and effects, we can better appreciate its importance and manage it more effectively. Whether through innovative materials, improved lubrication techniques, or new engineering designs, controlling friction remains a key area of focus for enhancing performance, efficiency, and longevity in a wide range of applications.
@@GMgame20sometimes on double barrel shotguns have one trigger that like I you pull it halfway only one shell fires and if you pull it all the way both shells fire
If I build a super cool double barrel shotgun I think it will take me 10 years to finish that
Especially if you want it to lock in place
I think you would have taken me 3 years
10 Years?! Screw this I can even finish in less than a week!
And yep. I already finished it in less than 1 hour
@@StefanFamllyPop lol
Nowadays we have so many ropes to help us make stuff but about 8 months ago the best thing you could make was a crapy musket
I cant even make a musket
Rude
@@Lilly-g8gwdym “rude?“
@@Lilly-g8ghe’s talking about about how the new ropes helps us?
Rude, A Musket THAT big is already hard to make
You made it really realistic 👏 👏
As a person who knows how a double barrel shotgun works, this is very accurate.
Really?
@@parasito199 ruclips.net/video/ZbV3jkgaEek/видео.html
Quit capping bruh ik how one works too and this isn’t very close
DEFINITELY PUT THHIS IN WORKSHOP
@@LeoCoolLife11 I’m currently working on a v3 and I’ll put it on workshop
You should put this in workshop NOW! "Ahh moment
@@urlookinkindasussyngl777make it free and name is shotgun v2
@@urlookinkindasussyngl777 ok
@@urlookinkindasussyngl777when?
Grandpas favorite weapon.
doing this in melon playground is literally gold
you inspired me to make my own guns
wow. Sliz should add this one in melon sandbox
What’s the mechanics?
Nice build put into workshop for 100 or 300
NO I CANT DO THAT THE WAY HE HAS THE BULLETS THE SNIPER LOOK THE EDGE TURNING I CANT DO IT TAKES ME 70 YEARS
It probably took them about 5 mins-1 hr
What about a flincklock musket?
DAYUM IMA MAKE SOME TO!
we need a turtorial this is great!
You have my irl name?!?
@@M_BalistoyRaiKenno, I’m bad at predicting or anything sorry
No ur user name is ryu my irl is ryu
@@M_BalistoyRaiKen dang I have the same name irl
@@VastDisappointmentdang that’s crazy having the same name as someone else and probably people won’t name they’re child Ryu that’s crazy
I have that
Add it to the workshop pls
How do you keep the buckshot in place
Freeze
@@MondarBautista How is it gonna move if its frozen?
friction, the barrel is a tad bit smaller than the buckshot ammo.
@@350-fn4ub wdym
@@Noobfessiona Friction is a force that opposes the relative motion of two surfaces in contact. It plays a fundamental role in everyday life and technological applications, influencing everything from walking to machinery operation. Understanding friction involves examining its microscopic interactions, types, effects, and ways to manage it.
At the microscopic level, friction results from the roughness and irregularities of surfaces. When two surfaces come into contact, their microscopic high points, or asperities, interact, creating resistance to motion. Even seemingly smooth surfaces have microscopic irregularities contributing to friction. These interactions at the molecular level lead to the forces we experience as friction.
Friction can be categorized into two main types: static and kinetic. Static friction acts on objects that are not moving, preventing them from starting to move. It must be overcome by an applied force to initiate motion. Kinetic friction occurs when objects are already in motion and is usually less than static friction, making it easier to keep an object moving than to start its movement. The coefficients of static and kinetic friction quantify these forces, with static friction having a higher coefficient than kinetic friction for the same material pair.
The coefficient of friction is a dimensionless number representing the ratio of the frictional force between two objects to the normal force pressing them together. This coefficient varies depending on the materials in contact and their surface conditions. For example, rubber on asphalt has a higher coefficient of friction than ice on steel. The coefficient of friction is crucial in designing systems where control of friction is essential, such as in braking systems, machinery, and everyday objects like shoes and tires.
Friction also generates heat due to the energy dissipated as surfaces rub against each other. This conversion of kinetic energy into thermal energy can have significant effects. In mechanical systems, excessive heat generation due to friction can lead to overheating and damage to components. Managing friction and heat generation is vital in many engineering applications. Lubrication is a common method to reduce friction and heat, using substances like oil or grease to create a thin, smooth layer between surfaces, minimizing direct contact and thus friction.
Despite its often negative connotation as a force that opposes motion, friction is essential for many practical purposes. It allows us to walk without slipping, cars to grip the road, and objects to be held firmly. Engineers and designers continuously work to optimize friction in various applications, balancing the need for grip and control with the desire to reduce wear and energy loss. Advances in materials science and tribology, the study of friction and wear, continue to enhance our ability to manage friction effectively. In conclusion, friction is a complex and multifaceted force that plays a crucial role in both everyday life and advanced technological systems. By understanding its microscopic origins, different types, and effects, we can better appreciate its importance and manage it more effectively. Whether through innovative materials, improved lubrication techniques, or new engineering designs, controlling friction remains a key area of focus for enhancing performance, efficiency, and longevity in a wide range of applications.
fellow gun builder you want to improve your build?
Yes and I also love your builds
I need to know how you did this
woah
ngl it looks like DT-10
I’m gonna make a v3 soon
Where’s the hand guard
Put this on melmod frfr
@@Mintymondos some of my guns are already on the workshop
Double barrel and Double trigger
Do the nock gun
Can you make it a mod please
Yea me to
Tutorial
Guys stop saying it would take me 10 years its free in workshop
Where
@@Soundwave-115 search shotgun and click download
@@vercetti-y4uauthor?
İst on workshop
BRO YOU USE ASSISTIVE TOUCH WHATS WRONG WITH YOU
brotha that ain’t a double barrel that’s a double trigger
@@semzachreyaso-fv8pj double barrel shotguns have two triggers
@@urlookinkindasussyngl777why cant a db shotgun have 1 trigger that shoots each bullet
@@semzachreyaso-fv8pj idk ask the gunsmiths
@@GMgame20sometimes on double barrel shotguns have one trigger that like I you pull it halfway only one shell fires and if you pull it all the way both shells fire
@@linkencastle6121 oh ok
s
.
Holy how is this getting so popular this build isn’t even that good
It is good you just don't know how good it is ¯\_(ツ)_/¯
IT ISSS😭😭