YOU ARE THE BEST TEACHER. my lecturer have mic problems so the whole semester i have to self study. Without you my final paper gonna be blank with no answer. thank you so much
For anyone's confused with force due to mass and Newton's law seems messed up: We used ΣF=ma, he simply moved the rewrote the equation: ΣF=ma ΣF-ma=0 And this term is force due to interntia/mass is often used in D'Alemberts principles TL;DR: he simply rewrote the "ma" term on the left hand side and gave it a name
Thanks again for making and sharing all of these videos! Maybe I'm just a stickler, but I have a bit of an issue with how you considered the forces and acceleration. Acceleration is produced by unbalanced forces acting on a body; it isn't the force *of* a body. If anything, "inertia" refers to the quality of an object to resist changes in its motion (i.e. acceleration). Similarly, the sum of the forces acting on a body isn't necessarily zero. If the sum of forces does happen to be zero, then there is no acceleration, so either the object remains at rest or it continues to move with the same velocity. In this example the math works out the same, however I'd recommend just always writing F = ma and summing the forces on the left-hand side of the equation.
yeah i am not sure why he did the summation of the forces that way. the net force on a body does not have to be zero and is not zero on the question he solved.
@@yhc1244 I’ve noticed a few issues with these videos from time to time, but the math always seems to work out. And other than that, I think they’re great. I just always like to point out issues when I see them so that it might add to the discussion…
@@abhishekkumarpatel8455 Yeah there's definitely different ways to work problems. I just learned a different way to do them, so I think it makes me biased. But ultimately if you do well on the JEE and understand the concepts, that should be fine.
In this lecture, sir has made the free body diagram according to the concept of pseudo forces. u can also write equations using Fnet = ma ... in both ways, u will get same result
If college is darkness, your videos are a spark of light.
Sir , bundle of thanks. Your teaching method is extraordinary.
Shoutout to all the gigachad indian engineers doing these videos. I learnt more than I did in a 2 hour lecture
YOU ARE THE BEST TEACHER. my lecturer have mic problems so the whole semester i have to self study. Without you my final paper gonna be blank with no answer. thank you so much
For anyone's confused with force due to mass and Newton's law seems messed up:
We used ΣF=ma, he simply moved the rewrote the equation:
ΣF=ma
ΣF-ma=0
And this term is force due to interntia/mass is often used in D'Alemberts principles
TL;DR: he simply rewrote the "ma" term on the left hand side and gave it a name
Thank you soo much i literally learnt alot from this channel ❤
Thanks a bunch 👏👏👏
that's so much helpful. Thanks sir
Damn!!! who else can teach this topic more better than u bro!!!🤯
Explained Beautifully!
bro wtf !!!!! why this so easy?!?!!?
😂 literally me also same condition bro 😅
EIE boys from landmark university appreciate you for this🔥🔥
Thank you!!I wish my teacher taught like you my life would be a lot easier
Thanks again for making and sharing all of these videos!
Maybe I'm just a stickler, but I have a bit of an issue with how you considered the forces and acceleration. Acceleration is produced by unbalanced forces acting on a body; it isn't the force *of* a body. If anything, "inertia" refers to the quality of an object to resist changes in its motion (i.e. acceleration). Similarly, the sum of the forces acting on a body isn't necessarily zero. If the sum of forces does happen to be zero, then there is no acceleration, so either the object remains at rest or it continues to move with the same velocity. In this example the math works out the same, however I'd recommend just always writing F = ma and summing the forces on the left-hand side of the equation.
yeah i am not sure why he did the summation of the forces that way. the net force on a body does not have to be zero and is not zero on the question he solved.
@@yhc1244 I’ve noticed a few issues with these videos from time to time, but the math always seems to work out. And other than that, I think they’re great. I just always like to point out issues when I see them so that it might add to the discussion…
actually, he calculated all with respect to body. That is why a pseudo force came into picture.
@@abhishekkumarpatel8455 Yeah there's definitely different ways to work problems. I just learned a different way to do them, so I think it makes me biased. But ultimately if you do well on the JEE and understand the concepts, that should be fine.
@@PunmasterSTP yeah, same I feel I solved it in the way I learnt during my jee prep time and answer came same
Best explanation... ❤️❤️
Please upload lectures on rotational mechanical systems !!
Tqsm sir this video helps lots and ur teaching very good sir tq for teaching us to easy tqsm sir
I'm waiting for this lecture
Thank you sir... I love your explanation.
thanks Sir🙏❤
by god excellent sir
Thank you sir
Thankyou sir
Good video!
I love this
Thanks so much
Thank god 😌
Please provide PPT's for all completed lectures for CSE Subjects
But this body will be affected by the friction too..since it has no wheels?
are you assuming all initial conditions = 0? Because your laplace of dx/dt and (d^2x)/(dt^2) is wrong.
Sir can u upload all the chapters of control system ?
What if the spring is on the other side of the mass ?? Please assist
😅😅 From you only now in this video why we put *Fnet = ma* 😅
In this lecture, sir has made the free body diagram according to the concept of pseudo forces. u can also write equations using Fnet = ma ... in both ways, u will get same result
Easy 🫢
👍👍👍😌😌😌