Thanks for watching! Let me know what you’d like to see next in the comments. And don’t forget you can watch the bonus video on Hydraulic Systems over on Nebula - nebula.tv/videos/the-efficient-engineer-understanding-hydraulic-systems.
Thanks once again. A video on how things like pumps, dams, weirs and water treatment plant plant works will be equally great. Your work is really helping.
I would like to see a never before seen video on enthalpy... Why we always use enthalpy in majority of our thermodynamic calculations and formulas? How enthalpy is different in liquids solids and gases...? Enthalpy is a very very confusing topic in thermodynamics... The formula that Enthalpy = Heat ( Thermal Energy) + PV ( pressure volume product) is actually super confusing for most of us (thermodynamics students) all the teachers have failed to explain this concept especially when this concept is applied in Joule-Thomson Expansion .... Websites , books, teachers and even the Professors say that Joule Thomson effect is an isenthalpic process.. However they really fail to properly and intuitively explain this... the confusion arises form the fact that a sudden compression or a sudden expansion is always refered to as an adiabetic process before one reads the Joule-Thompson Effect ... They say, " Joule Thomson Effect is not isentropic (reversible adiabetic) or adiabetic though there is a sudden expansion; it is an isenthalpic process" Another confusion arises from the fact that isothermal compression and isothermal expansion is always isenthalpic.... Because as soon as the pressure increases it will dissipate heat and as soon as the pressure decreases it will absorb heat from the surrounding ... But if we look at the Joule Thomson effect it is not isothermal the temperature drops and most unfortunately what ruins everything is that sometimes temperature increases as a result of sudden expansion 😵 ..... So we still can't apply the adiabetic logic here because according to adiabetic principle gases cool on expansion while gases are also weirdly heating up on expansion.... Why is this so.... ? Can you please explain what happens at the molecular level? ( animations or simulation on microscopic scale )
I request Bearings, Seals, and Valves. Very important to know how those work and how they wear down, and what sort of abuse wears them down quicker. For example an unbalanced rotating mass can damage the bearings.
And here I am watching it to understand how my windlass, bowroller and anchor + chain all interact and trying to maximize my windlasses ability to lift my anchor 😂 If anyone is bored and wants to help. I have 250' of 5/16 chain, 70lb anchor, 1.5" bowroller and the windlasses low point is 3' back from the high point of the bowroller... so how high or low from the top of the roller 😂😂
I am a graduate mechanical engineering I have been preparing for PG entrance exam of Engineering. Believe me!! You will never find this level of animation anywhere.....!! I mean seriously...... classical mechanics with such an perfect examples and articulate animation!!! May Allah bless you and except your efforts!! Love and Respect from India
Thank you for sharing. The animation is so wonderfully done. It made understanding the subject so much easier. And the logical progression of explaining from lever to pulley to gears is extremely clever and well thought out. This must have required a lot of imagination and fore thought.
This is now the best channel that I have watched in UA-cam in terms of explaining engineering concepts and clear animations. I've almost watched all the videos in this channel. Thanks and keep it coming.
I wish videos like this existed when I was in college. We had UA-cam, but it was the early days of it and mostly just people doing stupid things. It also took an hour to load a 5 minute video! I'm enjoying relearning the basics recently, so much of this stuff quickly gets forgotten after the exams if it's not regularly used!
You are doing GREAT work these videos have immersuable value for everyone watching them, it is a joy to learn engineering with this kind of quality content to support the classroom, on behalf of every aspiring engineer Thank You
Yea, I was always imagining them this way too. Imagine that each tooth is a lever with both sides of it equal to each other, but 2nd lever is shorter. And you act with one lever on another.
This helped me so much, I am currently studying for technology and when it came to pulleys the teacher’s stuff was so vague and didn’t even explain it. Now I know it so well. 👏🏼👏🏼👏🏼👏🏼👏🏼
Since you asked... Optimizing efficiency in an electric motor power drive would be a nice addition. What are the tradeoffs for using flywheels to store energy? Heat loss minimization? Your approach to pulleys, fulcrums, and gears is great.
As a mechanical engineering student I really love your videos. I appreciate how you include every minute details in your video. They way you explain the concepts is phenomenal. Only thing that bothers me is the frequency of your videos which come in Months.
After watching this video I suggest to take also a look to the Chevrolet videos about spinning levers and differential and the circle is finally complete!
I'm an EE. Im fascinated by mechanical systems but dont know much about the details. A lot of this stuff is somehow very intuitive, but the reasons why it works seems like magic. Your explanations of the reasons why it works are excellent and easy to understand. Subscribed. Looking forward to more videos! Also i keep noticing how almost all mechanical systems have electrical equivalents with similar equations. The hook's law spring with a mass differential equations are very similar to capacitor and inductor differential equations for example. Gears are similar to electrical transformers. Pulleys and levers are like electrical amplifiers. Its pretty neat how that works out.
@The Efficient Engineer please consider making a course for using blender for education content. I know there is a lot of blender courses and videos, but you are directing the software strength in a very specific way that is not mentions among the other videos.
I did an experiment and found that the weight of the lever is important if the weight of the items being placed on it is not heavy enough. Also, the tensile strength of the lever is very important if it is to lift the object.
Thanks, I realise I was really missing some common knowledge on this. I more or less understand how lever action worked even if I didn't know how the math worked out but I didn't understand the other 2.
Thank you so much U r doing excellent work for learner I m a lecturer in mechanical engineering I always show your video in my class and share with students Plz make more videos i.e. Gear and gear train Governor Gyroscope Balancing Dynamometer Mechanisms in theory of machine In manufacturing process Metal working process Casting process Working of power plants Thermal Hydro Nuclear
I absolutely love this! The animations are super helpful and allow me to wrap my head around the concepts much more efficiently. I can be a little slow sometimes, so your work is much appreciated 😁👍 I just subscribed and look forward to learning more about my favorite subject. Thanks for sharing your creativity, ability to teach, and overall mad skillzz with the world!
I just purchased a subscription at nebula. wish there was a way to give you credit. I watched the hydraulic video and followed. I'm a beginner machine mechanic at a plant so the way you layer out theses videos was perfect.
I have already seen this video on nebula. I have one complaint. Why there is no comment section in nebula? Please ask the nebula or curiosity stream to activate a comment section. That will be very convenient.
Are you going to make an electrical engineering playlist? Please make electrical engineering videos about circuits, circuit components, electromagnetic fields, etc
two type of lever system__1.proportional lever method in this load &effort of work done is same at all kind 2.inverse proportional lever system-----later on explain N.Thanikasalam
2:00 _Levers are the basis of everything._ Explain them and you can explain all phenomena. Note that the beam must be under tension for the applied force to be transmitted along it, via _transverse restoring forces_ over a time interval, aka _impulse waves_ . If the situation was _static_ ,the waves would interfere and you'd get a _standing wave_ . If it isn't tense somewhere (like the pivot), either there's no load or the beam has snapped!
As a person who studied mechatronics for a year, I can relate - this channel is awersome - simmle yet efficient way of explaining topics - just as the channel name says :)
Thanks for watching! Let me know what you’d like to see next in the comments. And don’t forget you can watch the bonus video on Hydraulic Systems over on Nebula - nebula.tv/videos/the-efficient-engineer-understanding-hydraulic-systems.
Thanks once again. A video on how things like pumps, dams, weirs and water treatment plant plant works will be equally great.
Your work is really helping.
I would like to see a never before seen video on enthalpy... Why we always use enthalpy in majority of our thermodynamic calculations and formulas? How enthalpy is different in liquids solids and gases...? Enthalpy is a very very confusing topic in thermodynamics... The formula that Enthalpy = Heat ( Thermal Energy) + PV ( pressure volume product) is actually super confusing for most of us (thermodynamics students) all the teachers have failed to explain this concept especially when this concept is applied in Joule-Thomson Expansion .... Websites , books, teachers and even the Professors say that Joule Thomson effect is an isenthalpic process.. However they really fail to properly and intuitively explain this... the confusion arises form the fact that a sudden compression or a sudden expansion is always refered to as an adiabetic process before one reads the Joule-Thompson Effect ... They say, " Joule Thomson Effect is not isentropic (reversible adiabetic) or adiabetic though there is a sudden expansion; it is an isenthalpic process"
Another confusion arises from the fact that isothermal compression and isothermal expansion is always isenthalpic.... Because as soon as the pressure increases it will dissipate heat and as soon as the pressure decreases it will absorb heat from the surrounding ...
But if we look at the Joule Thomson effect it is not isothermal the temperature drops and most unfortunately what ruins everything is that sometimes temperature increases as a result of sudden expansion 😵 ..... So we still can't apply the adiabetic logic here because according to adiabetic principle gases cool on expansion while gases are also weirdly heating up on expansion.... Why is this so.... ? Can you please explain what happens at the molecular level?
( animations or simulation on microscopic scale )
I would like to see videos on friction (and its applications) and principles of virtual work.
please cover topic of Waves
I request Bearings, Seals, and Valves. Very important to know how those work and how they wear down, and what sort of abuse wears them down quicker. For example an unbalanced rotating mass can damage the bearings.
This is by far the most concise explanation of these concepts I have come across. Excellent work, thank you for the information!
As a ME student that hasn't taken statics in a while, this was a great refresher!
No I wasn't stop lying
@@johnner8577 "It"
We didn't study gears in statics
this would be covered in dynamics
And here I am watching it to understand how my windlass, bowroller and anchor + chain all interact and trying to maximize my windlasses ability to lift my anchor 😂
If anyone is bored and wants to help. I have 250' of 5/16 chain, 70lb anchor, 1.5" bowroller and the windlasses low point is 3' back from the high point of the bowroller... so how high or low from the top of the roller 😂😂
while most people are out on Friday night i'm here watching these videos. I finally understand mechanical advantage! Thank you!
Amen
@JesusMartinez-zu3xl
You _are_ never done learning, after all!
Hell yea dude save your money and expend the mind, rather than wasting it and decreasing it 💪🏽💯
I'm also watching this a day after spending a great night out with family and friends getting wasted, dancing and singing.
Do both
The world is better when Adam shares himself - loved this and would watch and pay for more of this
I am so eternally grateful for this channel. I will become a patron once I graduate and stop being poor.
Please make more videos, I love them watch all of them! Great work as always
Appreciate it, thank you! Always working on more, it just takes time! 😅
@@TheEfficientEngineer I helps me alot. BTW, Tomorrow, I have applied mechanics exam.
@@TheEfficientEngineer you are doing great work .please make more video on FEM
Stop lying
I'm only here to learn how to hip throw someone thru a window
I am a graduate mechanical engineering I have been preparing for PG entrance exam of Engineering. Believe me!! You will never find this level of animation anywhere.....!! I mean seriously...... classical mechanics with such an perfect examples and articulate animation!!!
May Allah bless you and except your efforts!! Love and Respect from India
Can't agree lesser! This guy is a legend. Btw, i am having the same credentials as you, preparing for higher studies
What exam are you preparing for?
@@reddaxtor5662 Graduate Aptitude Test in Engineering, aka GATE
@@mayurdahiwale5907 all the best to both of you
@Danish_Rasa7
Heh. Based.
Keep at it dude. 👍🏾
One of the best explanations I've ever seen, covering many questions at once
Thank you for sharing. The animation is so wonderfully done. It made understanding the subject so much easier. And the logical progression of explaining from lever to pulley to gears is extremely clever and well thought out. This must have required a lot of imagination and fore thought.
I was confused by pulleys and how they work and your video made everything clear to me!
This is now the best channel that I have watched in UA-cam in terms of explaining engineering concepts and clear animations. I've almost watched all the videos in this channel. Thanks and keep it coming.
These are next-level animations paired with top notch explanations. Thank you for this most excellent refresher and keep up the great work!
I wish videos like this existed when I was in college. We had UA-cam, but it was the early days of it and mostly just people doing stupid things. It also took an hour to load a 5 minute video! I'm enjoying relearning the basics recently, so much of this stuff quickly gets forgotten after the exams if it's not regularly used!
You are doing GREAT work these videos have immersuable value for everyone watching them, it is a joy to learn engineering with this kind of quality content to support the classroom, on behalf of every aspiring engineer Thank You
It's been so many year's since I've graduated. Your videos are so helpful to refresh high level conceptual concepts. Thanks
A gear can also be seen as a wheel of levers where the moment is at the center of the gear and each tooth is it’s own lever. Great video! ❤
That is very true thanks for that.
Yea, I was always imagining them this way too. Imagine that each tooth is a lever with both sides of it equal to each other, but 2nd lever is shorter. And you act with one lever on another.
This helped me so much, I am currently studying for technology and when it came to pulleys the teacher’s stuff was so vague and didn’t even explain it. Now I know it so well. 👏🏼👏🏼👏🏼👏🏼👏🏼
This video would've been so useful back in my hs days. The information was delivered in a very easy to understand and digest manner. Great work
All your videos are gold. It not only bring concept and knowledge, but also develops more interest which is most important thing.
As a Physics teacher I wish I could buy you guys a pint - These animations are perfect!
Since you asked... Optimizing efficiency in an electric motor power drive would be a nice addition. What are the tradeoffs for using flywheels to store energy? Heat loss minimization? Your approach to pulleys, fulcrums, and gears is great.
I love how gears amp up speed in a given period of time. They're the reason I fell in love with cycling 😄
It's a great video
As a mechanical engineering student I really love your videos. I appreciate how you include every minute details in your video. They way you explain the concepts is phenomenal. Only thing that bothers me is the frequency of your videos which come in Months.
After watching this video I suggest to take also a look to the Chevrolet videos about spinning levers and differential and the circle is finally complete!
Every time I see a notification of your channel, I smile. I think I'm in love.
Me to
Thank you for making feel less stupid. I never understood when my lecturer tried to explain it. But now it's clear to me.
I'm an EE. Im fascinated by mechanical systems but dont know much about the details. A lot of this stuff is somehow very intuitive, but the reasons why it works seems like magic. Your explanations of the reasons why it works are excellent and easy to understand. Subscribed. Looking forward to more videos! Also i keep noticing how almost all mechanical systems have electrical equivalents with similar equations. The hook's law spring with a mass differential equations are very similar to capacitor and inductor differential equations for example. Gears are similar to electrical transformers. Pulleys and levers are like electrical amplifiers. Its pretty neat how that works out.
Nice subscription list. Proud of you as a Ukrainian fellow
I love watching these videos to refresh my knowledge of mechanical engineering
Love the way you gave the intuition for how energy is the same even if mechanical advantage increased with example of lever
Just came here to tell the algorithm that this video is very good, please make this video viral.
Please make more frequently videos , learnt so much from all of them ,
Love from India 🙏❤️❤️💙
I can't put it differently, your videos are art!
@The Efficient Engineer
please consider making a course for using blender for education content. I know there is a lot of blender courses and videos, but you are directing the software strength in a very specific way that is not mentions among the other videos.
I did an experiment and found that the weight of the lever is important if the weight of the items being placed on it is not heavy enough. Also, the tensile strength of the lever is very important if it is to lift the object.
Please 🙏 post regularly, your video's are dope!
Please make a video on surface tension, your videos are easy to understand and less time consuming.
Appreciate your efforts man, good luck!
Thanks, I realise I was really missing some common knowledge on this.
I more or less understand how lever action worked even if I didn't know how the math worked out but I didn't understand the other 2.
I LOVE THE WAY THIS VIDEO IS DESCRIBED AS IT IS SHOWN IN TGIS COLORFUL EASY TO UNDERSTAND ANIMATION. THANKS . HAPPY NEW YEAR.
finally i now understand the principle of pully. thank u sir
My favorite channel. It's been a while
Every time you post a video, I get so excited. Your videos are excellent. Thank you!
Thank you so much
U r doing excellent work for learner
I m a lecturer in mechanical engineering
I always show your video in my class and share with students
Plz make more videos
i.e. Gear and gear train
Governor
Gyroscope
Balancing
Dynamometer
Mechanisms in theory of machine
In manufacturing process
Metal working process
Casting process
Working of power plants
Thermal
Hydro
Nuclear
As usual, i hit the like button before watching the video because I know what I’m about to watch 👍🏻👍🏻👍🏻
Your content is frankly outstanding. Truly outstanding. And i've only given out such high praise a dozen or so times in the 21 years i've existed.
Your explanation is 1000 times better than my physics teacher! Good luck
😂😂😂
your videos must be watched in every school every class
Wow dude, this episode looked straight up beautiful.
This channel is just golden
Very clear exposition. Thanks.
excellent tutorial to introduce the concepts
damn, i didint think i would learn some applicable information here. nice, that rope levering system makes total sense now.
I absolutely love this! The animations are super helpful and allow me to wrap my head around the concepts much more efficiently. I can be a little slow sometimes, so your work is much appreciated 😁👍 I just subscribed and look forward to learning more about my favorite subject. Thanks for sharing your creativity, ability to teach, and overall mad skillzz with the world!
No you didn't your lying
@@johnner8577 *you're
I just purchased a subscription at nebula. wish there was a way to give you credit. I watched the hydraulic video and followed. I'm a beginner machine mechanic at a plant so the way you layer out theses videos was perfect.
Amazing video! Must take alot of time to develop, keep up the hard work !
I wish these videos were there when I was a student!
Superb explanations!
summary of mechanical principles. love it. thank you
Thank you for your uncomplicated explanation of the operation of these mechanics... may the peace of our Lord be with you and yours always 🙏
Duuuude! I’ve been wondering where you’ve been. Love your work
please make a video on TENSOR'S and why normal stress and shear stress cannot be added vectorially
Great visuals and explanations. Thanks!
Great video, informative. The ads are really annoying though, I wanted to use it in a junior high class but nooope.
Great explanations.
I am grateful to you forever.
Wow this was class to watch was told to watch it can't not recommend enufff👍👍👍👍👍👍👍👍👍👍👍
I have already seen this video on nebula. I have one complaint.
Why there is no comment section in nebula?
Please ask the nebula or curiosity stream to activate a comment section. That will be very convenient.
Good 👍 really helped me for my research for our bridge mechanism
Beautiful presentation
Please make video about non- conventional/ advanced manufacturing process
Excellent illustration 👍
Very interesting. I like that you explained clearly and allowed time to think and consider between each explanation.
I'm here to spread some love to my favorite channel, and peers. Hello 👋.....Amazing video
All your videos are really great to watch and are still understable, thank you !
Are you going to make an electrical engineering playlist? Please make electrical engineering videos about circuits, circuit components, electromagnetic fields, etc
this is exactly what I wanted to watch!!! surely an educational advantage your videos are😇
two type of lever system__1.proportional lever
method in this load &effort of
work done is same at all kind
2.inverse proportional lever
system-----later on explain
N.Thanikasalam
Brilliant! Please do more videos, you are very professional. Thank you!! Will recommend to friends
Best explanation ever
Just learning for fun
2:00 _Levers are the basis of everything._
Explain them and you can explain all phenomena.
Note that the beam must be under tension for the applied force to be transmitted along it, via _transverse restoring forces_ over a time interval, aka _impulse waves_ .
If the situation was _static_ ,the waves would interfere and you'd get a _standing wave_ .
If it isn't tense somewhere (like the pivot), either there's no load or the beam has snapped!
Wow ,very nice ,i am very exciting to watch this one ,
Need metallurgical advantage video with super alloys
As always, excellent for interview / viva preparation!
I am in the love of your videos 😍...Kindly make more videos...
Beautiful explanation
Informative, concise and simple thank you so much ❤
Please Please please make such more and keep it up. You are 👌
Brilliant explanation dude 👍
As a person who studied mechatronics for a year, I can relate - this channel is awersome - simmle yet efficient way of explaining topics - just as the channel name says :)
Only 600 likes? That can't be right, its too high quality to have this little likes
Very nicely explained. Thank you
Want more videos on structural Engg.
♥️
Thank you for this video this help me a lot.
Your videos are very helpful. Please make more videos. 👍
Everything in your videos is perfect 💯
Some good quality videos needs time....Great work !
Most Excellent Video. Thank you very much!!
Finally you uploaded a video❤️
Thank you so much. That was very helpful .
Great work as always. Thanks so much.