Sir, this is beautiful video by you really this is very helpful for us thanks for sharing this types of video here we are requesting you kindly upload more and more video
For those who need tips on How to Pass Mechanical Reasoning Test (With test example) - ua-cam.com/video/7w2j1BzMeXA/v-deo.html - Hope it helps everyone who is about to take their test! 😉
If you push the long end of the lever down a distance d1, how much does the other end move up? (Call this distance d2.) Express you answer in terms of L1 and L2. Part 2 Assume that the work you do is equal the work done on the load. Express this assumption in terms of the forces F1 and F2 and displacements d1 and d2, and use your answer from part 1 to derive the lever equation. Part 2 (you can do this part without doing part 1 or 2) If I gave you a lever arm 10 m long, where would you have to rest it on the fulcrum to lift a 1000 kg object off the ground? (I.e., what must the ratio L1/L2 be?) (Hint: The force you can exert is probably largest if you lean on it and push down with all your weight.)
For anyone who need this MA= input distance / output distance . Distances are inversely proportional to force so MA = Output Force / Input Force. My way of remembering this is " Mechanics (mechanical advantage both share the mech in the name) only WORRY about the INPUT DISTANCE not about the output distance so they can get paid. So be very careful of your input distance because mechanics will try to trick." No hate to mechanics.
Question Problem #4. Assume the triangle has only the one right hand side and that is welded to the lever at the apex as shown and the pivot now becomes the bottom of that leg and sat on the ground, is my input length increased by half the base of the triangle and my resistance length reduced by the same measure? I'm making a log roller/lifter. Nice to know the maths that go with it.
People of the world when your sit and watch someone vid and it help educate you please subscribe to give these servants of humanity credit it cost you nothing for your humanitarian efforts .. They don't have to do this for us!!!!
Hello. I am designing a machine that uses a pneumatic cylinder to operate a hole punch to punch through sheet metal. I will be using a lever to get a mechanical advantage to provide the force necessary. I am trying to figure out what kind of force would be experienced by the fulcrum or pivot point. I'm not having any luck finding information on how to calculate that. I would appreciate any help that you could provide. I know I haven't provided much detail here but I can give whatever information is needed to calculate that. Thanks.
I have one im trying to get in a book. if any one can help. be awesome. a fire lieutenant is demonstrating how to use a crow bar to lift a concrete slab up about 2 in to allow a piece of shoring to be put under the concretes edge. the lieutenant ask the group of fire recruits to estimate how much effort would be needed to lift a 300 pound slab if they use a crow bar that is 6ft 6 in. long and the fulcrum is 6inch. from the adz end. the recruits would be most accurate if they agreed that the effort would be approximately . the answer says 25 pounds of effort. but i keep missing somthing? i keep getting it wrong. can any one here help?
I was looking at Problem 1 and I could be mistaken here :) but it didn't look correct to me. I'll explain. The input side said 200N at a distance of 4 Meters I thought to figure out the amount of force on the input side one just needed to times the mass by the distance so in problem one on the input side it would be 200N X distance of 4 meters which equals 800NM of force and then you would do the same thing on the other side and ask yourself what mass times 1.5 meter distance equals 800NM of force, to balance it all out which would be 533.3333333333333 X 1.5 meters equals 800NM
Yep that’s correct. I don’t know where this guy got 2.7 from. Even if you do dived 4m by 1.5m( WHICH YOU DO NOT DO!) it equals 2.66666667. All you do is multiply the force(200)by distance to the fulcrum(4) which equals (800), then divide that number by the distance from the fulcrum to the weight(1.5m) which gives you 533.333333 And if they only give you the weight that’s on the lever and you’re trying to figure out the force it’s the same formula just backwards. 533.333333 X 1.5 = 800 divided by 4=200.
solving these questions just by making them equal to each other is a way more straightforward way to get the answer. Makes it more like an algebra problem
May I ask has anyone already worked out a chart or tablet for a class A lever that provides the force weight and distance needed to lift on the other side? If so kindly provide the Link. Thank you
A proportion: example problem: (2m X 100N) divided by 1m = 200N..............1 st problem: (4m X 200N) divided by 1.5m = 533.33N this is the correct value since it was round off. 2 nd problem: (2.2m X 150N) divided by 4.6m = 71.74N etc review the side with two given value are multiply then divide by the side with one value.
A bag of sand 25g place at the end of a seesaw and a boy of mass 15g place at the other end of seesaw.the distant between the bag of sand and the boy is 25cm and acceleration due to gravity is 10m/s. Calculate, the mechanical advantage. 2 the velocity ratios. 3 the efficiency of the machine in percentage. Help me solve this example
I see it differently Problem 1. (200N x 4M) / 1.5M = 533.33N Problem 2. (150 x 2.2) / 4.6 = 71.739N Problem 3. (840 x 1)/ 6 = 140N Why the discrepancy?
The world and schooling industry needs more people like you man, kep it up and stay blessed
Thanks for the help I needed it and couldn't find a comprehensive video all over youtube
I wish I saw this earlier you really work magic and make lever problems seem easier thanks a lot
Great Stuff! Straight forward. No errors or bumbling. Easy to follow. Thank you!
You are a lifesaver, scholar, & a gentleman!
Im talking a mechanic diplomas & it's really help me, thanks alot
A perfect way to combine learning and entertainment. Thx a lot this helped me understand lever problems. Thank you again.
Thank you so much. That was very simple to follow and easy to understand.
Really nice keep up the amazing work!
Clearest explanation of this topic ive seen. Thanks a ton! (actually thanks a Newton)
Sir,
this is beautiful video by you really this is very helpful for us thanks for sharing this types of video here we are requesting you kindly upload more and more video
This video was very helpful in explaining lever problems with good clear cut examples. Thanks for sharing.
Your explanation really made this topic easier
i just wanna say tysm this rly helped me on my science test! i scored 100% just because of this video *hugs*
Great source for learning from basics.
Thanks
For those who need tips on How to Pass Mechanical Reasoning Test (With test example) - ua-cam.com/video/7w2j1BzMeXA/v-deo.html - Hope it helps everyone who is about to take their test! 😉
Thank you so much for helping me in school
It is so simple! I have a very hard time understanding this at first. Thank you so much for this video!
pro tip: watch movies at flixzone. Me and my gf have been using them for watching all kinds of movies recently.
@Lachlan Jaziel Definitely, been using flixzone for months myself =)
Thx, this help me in the medium school. I like yours explanations, are very great and chill. xD
3 yrs ago
@@ayushdehlan5911 2 week ago
@@ALLAnimeGaming 10 months ago
This video has helped me so much !!
You are a great instructor
thanks for the explanation on the thing that i forgot to pay atention to in class, really helped with homework
If you push the long end of the lever down a distance d1, how much does the other end move up? (Call this distance d2.) Express you answer in terms of L1 and L2.
Part 2
Assume that the work you do is equal the work done on the load. Express this assumption in terms of the forces F1 and F2 and displacements d1 and d2, and use your answer from part 1 to derive the lever equation.
Part 2 (you can do this part without doing part 1 or 2)
If I gave you a lever arm 10 m long, where would you have to rest it on the fulcrum to lift a 1000 kg object off the ground? (I.e., what must the ratio L1/L2 be?) (Hint: The force you can exert is probably largest if you lean on it and push down with all your weight.)
youre a great teacher
For anyone who need this MA= input distance / output distance . Distances are inversely proportional to force so MA = Output Force / Input Force. My way of remembering this is " Mechanics (mechanical advantage both share the mech in the name) only WORRY about the INPUT DISTANCE not about the output distance so they can get paid. So be very careful of your input distance because mechanics will try to trick." No hate to mechanics.
It's helped me understand better thanks
decnoses for lever
in block and tackle system , if we have 6 pulleys.can we keep 4 in upper block and 2 in lower?
great sir🙌
thank you so much studying for the operating engineers union
Thank you!
excellent!!
I could make out very easily the problem you thought 🎩 off to you sir
Awesome video
THIS SAVED ME
this was very helpful thanks
It was amazing
Question Problem #4. Assume the triangle has only the one right hand side and that is welded to the lever at the apex as shown and the pivot now becomes the bottom of that leg and sat on the ground, is my input length increased by half the base of the triangle and my resistance length reduced by the same measure? I'm making a log roller/lifter. Nice to know the maths that go with it.
Thank you.
God bless you 😊
How do u calculate if there’s multiple Resistance on the output side?
People of the world when your sit and watch someone vid and it help educate you please subscribe to give these servants of humanity credit it cost you nothing for your humanitarian efforts .. They don't have to do this for us!!!!
nice explanation but you just make it more Complex you can do it very simple way
OMG THANK YOU SOOOOO MUCH
Super
Thank you very much.
really excellent
How can I calculate the weight of a body to create certain angle in a seesaw? Tnx for your class.
At what point in the ruler you should put the load to take less effort in lifting it?
The same issue appears to be in Problem 2.
The way I do it is multiply the input force by the beam divided by the output beam , much quicker for me.
Hello. I am designing a machine that uses a pneumatic cylinder to operate a hole punch to punch through sheet metal. I will be using a lever to get a mechanical advantage to provide the force necessary. I am trying to figure out what kind of force would be experienced by the fulcrum or pivot point. I'm not having any luck finding information on how to calculate that. I would appreciate any help that you could provide. I know I haven't provided much detail here but I can give whatever information is needed to calculate that. Thanks.
Thx, helpedALOT
I have one im trying to get in a book. if any one can help. be awesome. a fire lieutenant is demonstrating how to use a crow bar to lift a concrete slab up about 2 in to allow a piece of shoring to be put under the concretes edge. the lieutenant ask the group of fire recruits to estimate how much effort would be needed to lift a 300 pound slab if they use a crow bar that is 6ft 6 in. long and the fulcrum is 6inch. from the adz end. the recruits would be most accurate if they agreed that the effort would be approximately . the answer says 25 pounds of effort. but i keep missing somthing? i keep getting it wrong. can any one here help?
Is of pascal"s hydraulic law as a simple machine,to be included?
Sir, can u please tell me if they ask the length what will i do
Thank you bro 🙏
nicce
I was looking at Problem 1 and I could be mistaken here :) but it didn't look correct to me. I'll explain. The input side said 200N at a distance of 4 Meters I thought to figure out the amount of force on the input side one just needed to times the mass by the distance so in problem one on the input side it would be 200N X distance of 4 meters which equals 800NM of force and then you would do the same thing on the other side and ask yourself what mass times 1.5 meter distance equals 800NM of force, to balance it all out which would be 533.3333333333333 X 1.5 meters equals 800NM
Yep that’s correct. I don’t know where this guy got 2.7 from. Even if you do dived 4m by 1.5m( WHICH YOU DO NOT DO!) it equals 2.66666667. All you do is multiply the force(200)by distance to the fulcrum(4) which equals (800), then divide that number by the distance from the fulcrum to the weight(1.5m) which gives you 533.333333
And if they only give you the weight that’s on the lever and you’re trying to figure out the force it’s the same formula just backwards. 533.333333 X 1.5 = 800 divided by 4=200.
solving these questions just by making them equal to each other is a way more straightforward way to get the answer. Makes it more like an algebra problem
What is maximum mechanical advantage possible???
May I ask has anyone already worked out a chart or tablet for a class A lever that provides the force weight and distance needed to lift on the other side?
If so kindly provide the Link.
Thank you
stan lees brothher
Thank you
Sir please tell how to calculate leverage in brake pedal
A proportion: example problem: (2m X 100N) divided by 1m = 200N..............1 st problem: (4m X 200N) divided by 1.5m = 533.33N this is the correct value since it was round off. 2 nd problem: (2.2m X 150N) divided by 4.6m = 71.74N etc review the side with two given value are multiply then divide by the side with one value.
Thanks
A bag of sand 25g place at the end of a seesaw and a boy of mass 15g place at the other end of seesaw.the distant between the bag of sand and the boy is 25cm and acceleration due to gravity is 10m/s. Calculate, the mechanical advantage. 2 the velocity ratios. 3 the efficiency of the machine in percentage.
Help me solve this example
response video: ua-cam.com/video/tDARaUr12Tk/v-deo.html
is this the same with class 2 and class 3 levers?
nope
“Short lesson.” 24 mins long. Well, that’s how it was at school. Im gonna play it at x1.5 speed
Edit: this is a very good vid, thanks!
12 minutes on x2.0! IMA.
6 lever how to open 6 lever
I see it differently Problem 1. (200N x 4M) / 1.5M = 533.33N Problem 2. (150 x 2.2) / 4.6 = 71.739N Problem 3. (840 x 1)/ 6 = 140N Why the discrepancy?
is this guy still alive?
pero q es esto
What
Who is watching this at the age of 14 🙋♂️😅
sorry mate you tried but couldn't even put in 4 / 1.5
This guy fucked up the first two questions and is giving us long ass drawn out formulas that that aren’t even correct.