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산업 부품에 관한 첫 번째 채널
우리 채널에서는 전자, 기계 및 유압에 대한 주제를 다룹니다. 우리는 제조업체와 협력하여 산업 제품의 작동 방식을 자세히 설명하는 비디오를 제작합니다.
우리 채널에서는 전자, 기계 및 유압에 대한 주제를 다룹니다. 우리는 제조업체와 협력하여 산업 제품의 작동 방식을 자세히 설명하는 비디오를 제작합니다.
8 Things you should NEVER DO when driving an AUTOMATIC CAR
At first, driving a car with an automatic transmission may seem simpler compared to a manual transmission, in fact the controls of this type of gearbox are intuitive and useful in different situations, such as traffic where you stop and start again after a few seconds, or even on an uphill road. But even if it may seem like a basic type of transmission, there are some things you need to know.
That is why we are going to look...
At first, driving a car with an automatic transmission may seem simpler compared to a manual transmission, in fact the controls of this type of gearbox are intuitive and useful in different situations, such as traffic where you stop and start again after a few seconds, or even on an uphill road. But even if it may seem like a basic type of transmission, there are some things you need to know.
That is why we are going to look...
8 Things you should NEVER DO when driving a MANUAL CAR
Do you drive a car with a manual transmission? Becoming skilled at using the clutch pedal is the best prerequisite for passing the driving test. However, this alone is not enough to avoid the most common mistakes when using this type of gearbox.
That is why we are going to look at the 8 most common mistakes you could make when driving a car with a manual transmission.
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Do you drive a car with a manual transmission? Becoming skilled at using the clutch pedal is the best prerequisite for passing the driving test. However, this alone is not enough to avoid the most common mistakes when using this type of gearbox.
That is why we are going to look at the 8 most common mistakes you could make when driving a car with a manual transmission.
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The Brilliant Engineering of Mecanum Wheels!
Mecanum wheel-fitted robots or industrial machines can make a 180 degree turn without taking much space, whereas a normal forklift takes a lot of space and time to achieve the same task. Consider this perfect sideward movement of Mecanum wheeled machines. This would be tedious to achieve using normal wheels. Mecanum wheeled machines achieve all these crazy movements, but their wheels never tilt. Let’s see how Mr. Bengt Erland Ilon came up with this brilliant design. ...
Mecanum wheel-fitted robots or industrial machines can make a 180 degree turn without taking much space, whereas a normal forklift takes a lot of space and time to achieve the same task. Consider this perfect sideward movement of Mecanum wheeled machines. This would be tedious to achieve using normal wheels. Mecanum wheeled machines achieve all these crazy movements, but their wheels never tilt. Let’s see how Mr. Bengt Erland Ilon came up with this brilliant design. ...
The interesting engineering behind your Car Window!
Are you amazed at how easily you can raise and lower your car windows by just pressing a button? The mechanism inside your car window is so compact and smart that the window always moves straight and smooth. Also, you might have noticed that you’re not able to move the window even if you try to push it down or pull it up manually. Let’s understand the tricky mechanism that controls your car window.
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Are you amazed at how easily you can raise and lower your car windows by just pressing a button? The mechanism inside your car window is so compact and smart that the window always moves straight and smooth. Also, you might have noticed that you’re not able to move the window even if you try to push it down or pull it up manually. Let’s understand the tricky mechanism that controls your car window.
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OVERHEAD CRANE: Its Purpose, Functioning, and Components
Welcome to Jaes Company’s YouTube channel! Today we’re going to explore a fundamental machine in many production settings: the overhead crane. Often, when we think of large industrial plants or complex factories, we overlook how many devices are necessary to move heavy materials safely. The overhead crane (or bridge crane) is one of those essential devices.
But what exactly...
Welcome to Jaes Company’s YouTube channel! Today we’re going to explore a fundamental machine in many production settings: the overhead crane. Often, when we think of large industrial plants or complex factories, we overlook how many devices are necessary to move heavy materials safely. The overhead crane (or bridge crane) is one of those essential devices.
But what exactly...
The Genius Engineering behind the London Tower Bridge!
The mesmerizing London Tower bridge still works perfectly, opening and lowering the bridge almost 800 times in a year. No pedestrians are using these high-level walkways. Let me remove them, Oh no! To understand what is going on here we must first learn about the secret technologies hidden inside these engine rooms.
Let’s see the most simple bridge design which can open - an...
The mesmerizing London Tower bridge still works perfectly, opening and lowering the bridge almost 800 times in a year. No pedestrians are using these high-level walkways. Let me remove them, Oh no! To understand what is going on here we must first learn about the secret technologies hidden inside these engine rooms.
Let’s see the most simple bridge design which can open - an...
기차는 어떻게 선로를 변경하나요?
여러분이 다람쥐라고 가정하고 기차의 선로 전환을 즐기고 있다고 가정해 보세요. 하지만 문제는 레일 스위치의 이 부품이 느슨하다는 것입니다. 이것이 어떤 영향을 미칠까요?
이 유연한 선로를 이렇게 배치하면 기차 바퀴는 자연스럽게 이렇게 움직입니다. 하지만 교차로에 도달한 후...
여러분이 다람쥐라고 가정하고 기차의 선로 전환을 즐기고 있다고 가정해 보세요. 하지만 문제는 레일 스위치의 이 부품이 느슨하다는 것입니다. 이것이 어떤 영향을 미칠까요?
이 유연한 선로를 이렇게 배치하면 기차 바퀴는 자연스럽게 이렇게 움직입니다. 하지만 교차로에 도달한 후...
Petrol (Gasoline) Engine vs Diesel Engine
Gasoline and diesel engines are the two most commonly used internal combustion engines. Even though their operation seems similar, they have some interesting differences, and each has advantages over the other. This video is aimed at exploring these differences and advantages from a scientific point of view.
Both engines have the basic 4 strokes: intake, compression, power, and exhaust. ...
Gasoline and diesel engines are the two most commonly used internal combustion engines. Even though their operation seems similar, they have some interesting differences, and each has advantages over the other. This video is aimed at exploring these differences and advantages from a scientific point of view.
Both engines have the basic 4 strokes: intake, compression, power, and exhaust. ...
The Fascinating Engineering behind Electric Trains!
It might be surprising to know that in electric trains, the power collected from the overheadlines ends up in the grounding cable of the track after flowing through the wheels. Three phase power conversion, regenerative braking and zig-zag overheadlines - all these make electric train technology quite unique. Let’s understand all the engineering secrets behind the electric trains starting from the simplest design possible.
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It might be surprising to know that in electric trains, the power collected from the overheadlines ends up in the grounding cable of the track after flowing through the wheels. Three phase power conversion, regenerative braking and zig-zag overheadlines - all these make electric train technology quite unique. Let’s understand all the engineering secrets behind the electric trains starting from the simplest design possible.
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The Brilliant Engineering behind Pantographs!
Modern, Z-shaped pantographs are marvels of engineering. You can see how seamlessly they unfold and collect power from the overhead lines. Watch what happens if the collector head is not horizontal during the folding and unfolding of the pantograph. To better understand this important quality of modern pantographs, let’s examine this scaled-down demonstration.
The current collector is...
Modern, Z-shaped pantographs are marvels of engineering. You can see how seamlessly they unfold and collect power from the overhead lines. Watch what happens if the collector head is not horizontal during the folding and unfolding of the pantograph. To better understand this important quality of modern pantographs, let’s examine this scaled-down demonstration.
The current collector is...
Leonardo da Vinci's GENIUS invention - Miter Locks
What’s the connection between multifaceted genius Leonardo DaVinci and the great Panama Canal? Interestingly his centuries old invention – the Miter Lock – is still getting utilised in the majority of the canal locks. Its design is simple, yet Miter locks form a perfect water-tight lock.
People before DaVinci were using heavy, inefficient locks that worked against gravity. ...
What’s the connection between multifaceted genius Leonardo DaVinci and the great Panama Canal? Interestingly his centuries old invention – the Miter Lock – is still getting utilised in the majority of the canal locks. Its design is simple, yet Miter locks form a perfect water-tight lock.
People before DaVinci were using heavy, inefficient locks that worked against gravity. ...
Tesla Turbine | The interesting physics behind it
The maverick engineer Nikola Tesla made his contribution in the mechanical engineering field too. Look at one of his favorite inventions — a bladeless turbine, or Tesla Turbine. The Tesla turbine had a simple, unique design, yet it was able to beat the efficiency levels of steam turbines at that time. Normal turbines are complex in design, with blades of complicated geometry and stator parts. Nikola Tesla once said the Tesla turbine is his favorite invention and he even claimed...
The maverick engineer Nikola Tesla made his contribution in the mechanical engineering field too. Look at one of his favorite inventions — a bladeless turbine, or Tesla Turbine. The Tesla turbine had a simple, unique design, yet it was able to beat the efficiency levels of steam turbines at that time. Normal turbines are complex in design, with blades of complicated geometry and stator parts. Nikola Tesla once said the Tesla turbine is his favorite invention and he even claimed...
The Engineering Marvel called Panama Canal
Did you know that a simple drought in the Panama region could cease the operation of the great Panama canal? This marvel of civil engineering uses a clever locking arrangement to lift passing ships by almost 20 meters in order to safely transport them across the canal.
To materialize this smart canal lock system a superfast concreting technology was needed. Look at the giant T-cranes the...
Did you know that a simple drought in the Panama region could cease the operation of the great Panama canal? This marvel of civil engineering uses a clever locking arrangement to lift passing ships by almost 20 meters in order to safely transport them across the canal.
To materialize this smart canal lock system a superfast concreting technology was needed. Look at the giant T-cranes the...
잉크젯 프린터 |이 뒤에 있는 흥미로운 엔지니어링
잉크젯 프린터 기술은 정말로 씨의 마의 색상의 마법입니다. 작은 물방울 뒤에 있는 공학과 색상 알고리즘 잉 최종 이미지를 만드는 방법은 꽤 스마트 합니다. 우리 모드는 티스 플레이 기술이 미세한 적색 녹색 및 청색 서브 팩 쌀로 구성되어 있다는 것을 알고 있습니다.
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잉크젯 프린터 기술은 정말로 씨의 마의 색상의 마법입니다. 작은 물방울 뒤에 있는 공학과 색상 알고리즘 잉 최종 이미지를 만드는 방법은 꽤 스마트 합니다. 우리 모드는 티스 플레이 기술이 미세한 적색 녹색 및 청색 서브 팩 쌀로 구성되어 있다는 것을 알고 있습니다.
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Weirs | The COOL Engineering Behind Them
If you’ve ever visited the beautiful river Kennet you might have noticed a strange looking zig-zag structure. Did you know that if this structure were to disappear one fine morning, that the result would be a disaster? Welcome to the interesting engineering behind weirs.
Suppose you have an open channel flow like this. You introduce a simple structure called a weir into the flow. What do...
If you’ve ever visited the beautiful river Kennet you might have noticed a strange looking zig-zag structure. Did you know that if this structure were to disappear one fine morning, that the result would be a disaster? Welcome to the interesting engineering behind weirs.
Suppose you have an open channel flow like this. You introduce a simple structure called a weir into the flow. What do...
금문교 | 공학의 정점
태평양 위에 떠있는 금문교를 볼 때 여러분의 눈은 그것에 아름다운 현숙 케이블 시스템에 끌릴지도 모릅니다. 만약이 케이블 시스템이 없다면 이 다리는 어떻게 될까요? 반달이 말해서 그것은 재앙이 될 것입니다. 태평양의 치명적인 조류를 용감히 대면하고 수석 설계 엔지니어인 조셉 스트라우스 씨와 함께 골든 게이트 다리를 건설해보세요. 우리는 또한 근몽교가 이룬 매혹적인...
태평양 위에 떠있는 금문교를 볼 때 여러분의 눈은 그것에 아름다운 현숙 케이블 시스템에 끌릴지도 모릅니다. 만약이 케이블 시스템이 없다면 이 다리는 어떻게 될까요? 반달이 말해서 그것은 재앙이 될 것입니다. 태평양의 치명적인 조류를 용감히 대면하고 수석 설계 엔지니어인 조셉 스트라우스 씨와 함께 골든 게이트 다리를 건설해보세요. 우리는 또한 근몽교가 이룬 매혹적인...
Golden Gate Bridge | How a Wonder was Constructed?
The construction innovations Mr. Joseph Strass achieved for the Golden gate bridge project were numerous. The way the workers connected the massive cable standing on the top of the world, and most importantly the way they constructed the giant towers.
For the tower construction, American engineers invented a beautiful machine - the climbing derrick. Check out how these two stiff...
The construction innovations Mr. Joseph Strass achieved for the Golden gate bridge project were numerous. The way the workers connected the massive cable standing on the top of the world, and most importantly the way they constructed the giant towers.
For the tower construction, American engineers invented a beautiful machine - the climbing derrick. Check out how these two stiff...
Empire State Building | All the Secrets of the Engineering Wonder
In 1945 a speeding bomber aircraft accidently crashed into the most iconic building of the United States - The Empire State Building. You might be expecting something like this. Huge fire, impact, Force damage.
The engines destroying the lift system and portion of the building. Despite all these, the Empire State Building stood strong. All these heavy pieces were...
In 1945 a speeding bomber aircraft accidently crashed into the most iconic building of the United States - The Empire State Building. You might be expecting something like this. Huge fire, impact, Force damage.
The engines destroying the lift system and portion of the building. Despite all these, the Empire State Building stood strong. All these heavy pieces were...
역사상 가장 빠른 기차 | 그것의 완전한 물리학
요즘은 자기로 공중부양 열차가 흔하지만 중앙 일본 철도 회사에서 개발한 자기 공중부양 열차는 매우 독특하고 다른 열차 보다 우수합니다. 시속 600km 이상으로 달리는 이 열차는 가장 빠른 열차 라는 지위를 얻었습니다.
이 열차는 초전도 자석을 사용하므로 SC 맥을 레브 라고...
요즘은 자기로 공중부양 열차가 흔하지만 중앙 일본 철도 회사에서 개발한 자기 공중부양 열차는 매우 독특하고 다른 열차 보다 우수합니다. 시속 600km 이상으로 달리는 이 열차는 가장 빠른 열차 라는 지위를 얻었습니다.
이 열차는 초전도 자석을 사용하므로 SC 맥을 레브 라고...
쓰나미 뒤에 숨겨진 냉혹한 물리학!
대산에서 형성되는 스나미 파도는 높은 속도로 이동하지만, 거의 눈에 띄지 않습니다. 이제 파도가 해안으로 접근하거나 수심이 점차 얕아집니다. 놀랍게도 처음에는 무해에 보였던 파도가 갑자기 엄청난 진폭을 얻게 되어 파괴적인 쓰나미로 변모합니다. 이 이상한 물리를 이해하기 위해 바닷속으로 들어가 봅시다.
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대산에서 형성되는 스나미 파도는 높은 속도로 이동하지만, 거의 눈에 띄지 않습니다. 이제 파도가 해안으로 접근하거나 수심이 점차 얕아집니다. 놀랍게도 처음에는 무해에 보였던 파도가 갑자기 엄청난 진폭을 얻게 되어 파괴적인 쓰나미로 변모합니다. 이 이상한 물리를 이해하기 위해 바닷속으로 들어가 봅시다.
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Boston Dynamics Spot Robot: All of its Engineering SECRETS!
A fall from almost 20 feet height - the Spot robot of Boston Dynamics looks like a dead creature now. But, it will recover like an intelligent animal with the help of its smart motor arrangement and intelligent mechanism. The angle of the Spot robot leg is quite interesting. It’s a backward bend design. Ohh, now there is one more robot to compete with the original Spot robot! The maximum speed both the robots can achieve is almost the same, but what about this stair...
A fall from almost 20 feet height - the Spot robot of Boston Dynamics looks like a dead creature now. But, it will recover like an intelligent animal with the help of its smart motor arrangement and intelligent mechanism. The angle of the Spot robot leg is quite interesting. It’s a backward bend design. Ohh, now there is one more robot to compete with the original Spot robot! The maximum speed both the robots can achieve is almost the same, but what about this stair...
Constructing the Wonder: Hoover Dam Secrets Revealed
The galleries located inside the Hoover dam are pretty amazing. They are responsible for draining water from beneath the dam body. However, if these simple looking galleries were absent, there would be devastating consequences for the dam. To better understand the clever engineering behind the Hoover dam, let's first explore how they placed the concrete in this dam.
Did you notice...
The galleries located inside the Hoover dam are pretty amazing. They are responsible for draining water from beneath the dam body. However, if these simple looking galleries were absent, there would be devastating consequences for the dam. To better understand the clever engineering behind the Hoover dam, let's first explore how they placed the concrete in this dam.
Did you notice...
기차 휠 모양 뒤에 숨겨진 흥미로운 기술!
그게 차에 바퀴는 완벽하게 원통형이 아니라 약간 원뿔 형이라 우리가 생각하게 이 원뿔 모양을 두 가지 주요한 것을 성취한 공학의 경이로운 1인 다. 하나는 중심을 향한 열차를 경로 검사고, 다른 하나는 열차다 차동 장치 동작을 달성하도록 돕는 것입니다.
첫번째 성과를 이해하기 위해...
그게 차에 바퀴는 완벽하게 원통형이 아니라 약간 원뿔 형이라 우리가 생각하게 이 원뿔 모양을 두 가지 주요한 것을 성취한 공학의 경이로운 1인 다. 하나는 중심을 향한 열차를 경로 검사고, 다른 하나는 열차다 차동 장치 동작을 달성하도록 돕는 것입니다.
첫번째 성과를 이해하기 위해...
Underwater Constructions: How do Engineers Make Them?
Many laborers are fighting hard against the violent ocean currents to complete the construction of an underwater bridge pier. Are you able to spot a mistake made by the chief construction engineer here? This mistake will result in a catastrophe. Welcome to civil engineering’s most challenging task: underwater construction.
Even though we call it underwater construction,...
Many laborers are fighting hard against the violent ocean currents to complete the construction of an underwater bridge pier. Are you able to spot a mistake made by the chief construction engineer here? This mistake will result in a catastrophe. Welcome to civil engineering’s most challenging task: underwater construction.
Even though we call it underwater construction,...