I just discovered your channel. In was looking for tutorials for kinematics and Forces and many more. I can't believe the quality of the videos even from 7 Years ago and it's better than some new videos in the internet. You have great videos and excellent way of teaching. Thanks for the videos much respect. 👍
there are so many haters in these comments please dont mind them they have no authority to judge you . THis is the best video on the INTERNET explainig the bouyancy force. THANK YOU for sharing your knowledge.
A question. While I appreciate the explanation of the principles involved and the mathematical solutions, wouldn't it be easier to submerge the gauge and a buoyant object and read the newtons or grams expressed? Note: for a buoyant object. 😊
you really dont knw how to explain ....you are moving waay too fast...this youtube thing ..rather leave it...what is the point of creatin an educational channel if you are not going to clearly elaborate meticulously?
He put time and effort into making a free educational video for students to learn from, which he didn't have to do. The least you can do is be grateful and polite.
I just discovered your channel. In was looking for tutorials for kinematics and Forces and many more. I can't believe the quality of the videos even from 7 Years ago and it's better than some new videos in the internet.
You have great videos and excellent way of teaching. Thanks for the videos much respect. 👍
So glad you like the videos and teaching approach. Thanks for the nice comment.
there are so many haters in these comments please dont mind them they have no authority to judge you . THis is the best video on the INTERNET explainig the bouyancy force. THANK YOU for sharing your knowledge.
Thanks so much, I appreciate all the positive comments I receive
Thanks for the great comment.
Straight to the point I like this kind of thing... Thanks for the video
Glad you liked it, thanks for the comment.
Great video, thank you
You're welcome. Glad you liked it!
Hi, on example 3 why did you do f air- f water? thanks
That is how you measure the Buoyant Force! :)
Noted the questions.Very nice teaching😍
Thanks so much!
why are there different equations for the bouyant force in each question?
Because it is so closely tied to density.
It makes no since
WOW IT IS BEST EXPLANATION
Happy to hear that, thanks!
Nicely explained
Thanks so much
This was really helpful ❤❤❤
Glad to hear that, thanks!
Isn't Fg for the first example supposed to be 0,3 N ?
Yes, I think I made a mistake there.
@@stepbystepscience hi, why? i don not understand. thanks
Why will 10 to the power -4 will come in example 3
Because when you put the numbers in the calculator it comes out as 10-4.
Because the answer is 0.00046 m^3. So we would rewrite it as 4.6*10^-4
A question. While I appreciate the explanation of the principles involved and the mathematical solutions, wouldn't it be easier to submerge the gauge and a buoyant object and read the newtons or grams expressed? Note: for a buoyant object. 😊
That would also work. What if the gauge is not water proof?
@@stepbystepscience it would be most unfortunate. :-)
solve this equation for me please
a body lost 0.6N in weight when immersed in water. Calculate its volume in cubic centimetres
do you have a question?
yes sir here it is ......A body lost 0.6N in weight when immersed in water. Calculate its volume in cubic centimetres@@stepbystepscience
I need you to teach this stuff to flat earthers.
Ha ha, what a challenge!
@@stepbystepscience weird...looks like my response is gone..
that was dark i love it hahahaha
Is that a compliment? If yes then thanks.
you really dont knw how to explain ....you are moving waay too fast...this youtube thing ..rather leave it...what is the point of creatin an educational channel if you are not going to clearly elaborate meticulously?
I try my best and I aim to be polite and helpful to all my viewers. You can always hit the pause button.
He put time and effort into making a free educational video for students to learn from, which he didn't have to do. The least you can do is be grateful and polite.