Video

Thank you so much it really helped😊😊😊 but you could have included the component of gravitational pull in the x-component of forces.......

Thanku sir 😊

i love u

Awesome explanation

Hello, I just wanted to mention that it is really unnecessary to show your yourself while you are explaining examples. It makes the screen smaller and I have to zoom in, but even though I cannot really see the numbers very well there would be much clearer if you could just focus on the content.!!!

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Gurpreet Shanti vidya mandir school Ferozepur, punjab

Thank you so much❤

hi! would it be possible to cover some videos from chapter 19?

u r so cool

Man, I love you. You're saving my finals

i could kiss you right now tysm

hey man thanks a lot!

Excellent 😊,clear explanation point nailed , thank you for making it simple.

bro U R the best

Can you please make video to explain the question of the s Statics and Mechanics of Materials because tomorrow after 20 hours final exam please tank your ❤. The link google drive for question: drive.google.com/drive/folders/1qjt7BDootOyQr02qR--_t3kBSSVLw7Vu Ch7: Distributed forces: moments of inertia To be covered: Sample Example: 7.5 Problem: 7.25, 7.26, 7.36 Ch5: Distributed forces: centroid and center of gravity To be covered: Sample Example: 5.1 Problem: 5.2, 5.8 Ch4: Equilibrium of rigid bodies Topics: 4.1 Equilibrium in two dimensions To be covered: Sample Example: 4.1, 4.2, 4.4 10 Ch4: Equilibrium of rigid bodies Topics: 4.1 (continue) Equilibrium in two dimensions To be covered: 11 Problem: 4.1, 4.13, 4.17 Ch4: Equilibrium of rigid bodies Topics: 4.2 Two special cases (Equilibrium in two dimensions) To be covered: Problem: 4.29, 4.35, 4.36 Assignment#3: Problem: 4.11, 4.14, 4.16, 4.22 Statics and Mechanics of Materials Ferdinand P. Beer Late of Lehigh University E. Russell Johnston, Jr. Late of University of Connecticut John T. DeWolf University of Connecticut David F. Mazurek U.S. Coast Guard Academy Mc Graw Hill drive.google.com/drive/folders/1qjt7BDootOyQr02qR--_t3kBSSVLw7Vu

Can we Determine the magnitude of the net force exerted by the hockey stick on the puck if the interaction occurs in 0.002 s. ?

Em A tem duas forcas uma no eixo ax e outra no eixo ay com sentido contrario não ? Pois você colocou em mesmo sentido , porquê ?

please upload more videos these are so helpful ,thank you very much

Hi, my english is so so. I have a question. Why not exist normal force in the forces in y?

why is wbc positive please i have an exam tomorrow

hey man can i give you a suggection ?

I don't understand why you say, "We assume that the beam will not rotate because the ball does not slip". Can you explain? (10.minute-11.minute)

Please share solutions of practice problems of ch 12 from 12-1__ 12-15

Hello sir and thanks for the video. Just little confused. when finding Mb why isn’t both 20kip are negative?

the goat

الف رحمة على اهلك

We can also use v²=u²+2as can't we?

Hi bro where do u come from...can we meet after this to teach me more statics

you always so helpfull thanks

You are truly a blessing to every engineering student out there! Thank you so much for taking the time to solve these questions and record these videos for us!

thank you very much

Thank you so much!

wrong

.

thx bro, great help

You keep saying cubed for the area.. Don’t you mean squared?

??

my ggggg

Best teacher ever

Thank you for your videos. Professors do not help anymore only people such as yourself on CZcams help us students understand the material. God bless you!

Thanks a lot man

why not component for Cy and Dy

Can I solve it using the law of conservation of energy?

how can i contact you?

Can you please share your email

You've been such a great help. Thanks mate!

whats the vmax sir, is it -60 or +60?😅 i got confused

Well explained and presented, nicely done. So much better than the erratic motion examples in the textbook.

why dont you take r=cb