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vishal galande
Приєднався 27 лис 2016
Slider Crank Mechanism animation/simulation using GeoGebra
In this video animation/simulation of Slider Crank Mechanism is done using GeoGebra.
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Відео
Crank Rocker Four bar Mechanism animation/simulation using GeoGebra
Переглядів 8 тис.3 роки тому
In this video animation/simulation of Four bar mechanism (Grashoffian Linkage) is done using GeoGebra.
11- ICR Method : Numerical (Slider crank mechanism)
Переглядів 3,3 тис.4 роки тому
11- ICR Method : Numerical (Slider crank mechanism). All 6 ICR (Instantaneous Centre of Rotation) are located for Slider crank mechanism. Angular velocity of connecting rod and Velocity of slider is obtained. ICR (Instantaneous Centre of Rotation) method is used for Kinematic analysis of Slider crank mechanism. Angular velocity ratio theorem is used to obtain angular velocity of connecting rod....
Loop Closure equation
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In this video Loop Closure equation is discussed. It is discussed by using Four bar Mechanism.
When we get Double crank mechanism in Four bar linkage (Grashoffian Linkage) ?
Переглядів 4914 роки тому
When we get Double crank mechanism in Four bar linkage (Grashoffian Linkage) ? . Crank-crank mechanism or Double crank mechanism. Grashoff's Law of Four bar mechanism.
Helical Gear (Left Handed and Right Handed) and Shaft angle
Переглядів 2,4 тис.4 роки тому
In this Video Left Handed and Right Handed helical gears are explained. Shaft angle between meshing helical gears is also explained for different cases.
Speed and torque analysis of Epicyclic Gear Train to determine holding torque
Переглядів 1,7 тис.4 роки тому
Experiment (Theory Of Machines) : Speed and torque analysis of Epicyclic Gear Train to determine holding torque. Epicyclic gear train, In this setup Input motion is given to Sun Gear, Output is taken from Arm (or Planet Carrier) and Ring gear is fixed.
Gear generation with Rack as a cutter to generate Involute profile
Переглядів 13 тис.4 роки тому
In this video "Gear generation with Rack as a cutter to generate Involute profile" is discussed. Experiment (Theory of Machines):To study manufacturing of gear using gear generation with rack as a cutter and to generate involute profile.
Face Plate Variator
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In this video working of Face plate variator is explained.
Freudenstein's Equation
Переглядів 15 тис.4 роки тому
Freudenstein's Equation is obtained in this video. Freudenstein's Equation is used for 3 position synthesis of four bar mechanism.
Epicyclic Gear Train or Planetary Gear Train
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In this video Epicyclic Gear Train or Planetary Gear Train is explained.
Helical Gear : Terminology , Virtual number of teeth on equivalent Spur gear
Переглядів 6 тис.4 роки тому
Helical Gear : Terminology , Virtual number of teeth on equivalent Spur gear. Helical gear terminology is explained.( Helix angle, Transverse plane, Normal plane, Transverse circular pitch, Normal circular pitch, Axial pitch, Transverse module, Normal Module, Transverse and normal Pressure angle). Relation for Virtual number of teeth on equivalent Spur gear is obtained.
How Involute gear tooth profile follows Law of gearing ?
Переглядів 1,2 тис.4 роки тому
How Involute gear tooth profile follows Law of gearing ? In this video from 3:30 minutes onward Video of Pulleys and belt is used from following You-Tube Video (Only Video, Sentences and music are added by me): Video title : involute generation from pulleys and belt. Link : ua-cam.com/video/lWuKl4rG2HA/v-deo.html Youu-Tube Channel : jacques maurel
How Cycloidal gear tooth profile follows Law of Gearing ?
Переглядів 1,8 тис.4 роки тому
This video describes "How Cycloidal gear tooth profile follows Law of Gearing ?". Fluctuation of pressure angle for Cycloidal gear tooth is also explained.
Gear meshing
Переглядів 2,9 тис.4 роки тому
In this video Gear meshing is explained. During meshing, contact will take place between two meshing teeth and it (contact) will end.
10- ICR Method : Angular Velocity Ratio Theorem
Переглядів 4,2 тис.4 роки тому
10- ICR Method : Angular Velocity Ratio Theorem
9- ICR Method : Types of ICR and How to locate all ICR in Four bar mechanism ?
Переглядів 2,8 тис.4 роки тому
9- ICR Method : Types of ICR and How to locate all ICR in Four bar mechanism ?
7- ICR Method : How to write or List ICR ?
Переглядів 1994 роки тому
7- ICR Method : How to write or List ICR ?
6- ICR Method : Relation to find Number of ICR in mechanism.
Переглядів 3464 роки тому
6- ICR Method : Relation to find Number of ICR in mechanism.
5- ICR Method :To locate ICR for some cases.
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5- ICR Method :To locate ICR for some cases.
4- ICR Method: Introduction to concept of ICR by using example of Ladder leaning against wall.
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4- ICR Method: Introduction to concept of ICR by using example of Ladder leaning against wall.
3-ICR Method (ICR- Instantaneous Centre of Rotation): Introduction to ICR
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3-ICR Method (ICR- Instantaneous Centre of Rotation): Introduction to ICR
2-ICR Method (ICR- Instantaneous Centre of Rotation): Introduction to ICR
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2-ICR Method (ICR- Instantaneous Centre of Rotation): Introduction to ICR
1-ICR Method (ICR- Instantaneous Centre of Rotation): Prerequisite- Rotating Circular Disc
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1-ICR Method (ICR- Instantaneous Centre of Rotation): Prerequisite- Rotating Circular Disc
Cycloidal motion for follower (Displacement Diagram)
Переглядів 1,2 тис.5 років тому
Cycloidal motion for follower (Displacement Diagram)
Constant Acceleration and Deceleration motion for follower (Numerical)
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Constant Acceleration and Deceleration motion for follower (Numerical)
Constant Acceleration and Deceleration motion for follower (Basics)
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Constant Acceleration and Deceleration motion for follower (Basics)
Simple Harmonic Motion (SHM) for follower (Numerical)
Переглядів 3225 років тому
Simple Harmonic Motion (SHM) for follower (Numerical)
Excellent
Plz give a video on correction of gears
God bless you for such a simplified explanation
One of the best video about epicyclic gear train experiment
Excellent explanation..!!! 💯💯👍
okeh
very nice sir
Thank you sir
Perfect❤❤
excellent sir
very clear explanation!!!!
U save me❤
Nice Video Sir.
It Helped me lot thank you
it is amazing explanation. thanks mr.
hey bro u also take theory of machines ?
Sir ajun upload Kara cam and followers che video
Hi
❤️❤️
ua-cam.com/video/xpvo0Wa3OCU/v-deo.html
ua-cam.com/video/-CgttLj5w84/v-deo.html
Paper and Glue demonstrations are really good.
Thank you sir ..💚
Thank you sir
Sir aap please relative velocity and acceleration diagram ka video banao
Koi achha sa song dal diye hote
You teach from your heart sir excellent explaination thank you sir👌🙏😊
How to visualise normal and transverse pressure angles?
the angle b/w tooth and vertical in normal plane is normal p. angle. the angle b/w tooth and vertical in transverse plane is tr. p angle.
It was top notch explanation of this theorem on youtube. Thanku so much for your efforts.
ua-cam.com/video/LYyNbxlegbE/v-deo.html
No words
Clear explanation! 👍👍
Easy to understand 👏
Thank you
Super
thanks a lot , very helpful video
Best explanation of loop closure equation
🔥🔥🔥
May i ask? Why use 120 divisions? When obviously you need to make less gear teeth, that looks 16 teeth. Thank you.
Thank you for video.
Please reply sir
No its not same
Sar planet gear ka input or output torque same Hota Hai
Thanks sir helpful ❤️
Great
Simple and understandable...👏👏
Wonderful Sir! thankyou very much.
excellent explanation. i saw many videos, i found this is best explanation of IC's
ua-cam.com/video/LYyNbxlegbE/v-deo.html
👍👍👍
Thank you, very well done, very clear and the timing was spot on. My only question is what are the repercussions of the constantly changing pressure angle? Thanks for sharing this video.
Thank you, for watching it. Even if the Pressure angle is fluctuating, Law of Gearing will be followed (as common normal at every point of contact will always pass through Pitch point). Tooth of driver gear will exert push (Force) to the tooth of driven gear along common normal. That push ( Force ) can be resolved into 2 components at Pitch point, Tangential force & Radial force. Tangential force= Force multiplied by cosine of Pressure angle. & Radial force = Force multiplied by sine of Pressure angle. Push (Force) exerted by tooth of driving gear to the tooth of driven gear will be same. But due to fluctuating pressure angle, Radial and Tangential force experienced by the tooth will fluctuate continuously. In short tooth will be subjected to fluctuating forces and in turn to fluctuating stresses.
Very nicely and simply explained 👍🏻
👍👍👍👍👍👍👍👍👍👍👍👍👍👍👍👍👍👍👍
Very nice video, perfectly and briefly explained. Every single step is perfectly explained from the basic. Thank you so much sir.