Multiple errors showing the wrong lever type during the description - see if you can find them. The words are true but some of the examples are incorrect. I'm going to use this as a review assignment with my Science 14 class.
In a class 1 lever, the load and the effort are not in the same direction; they are on opposite sides of the fulcrum. A class 1 lever is characterized by having the fulcrum located between the load (the resistance to be overcome) and the effort (the force applied to move the load). Common examples of class 1 levers include seesaws and scissors. In these cases, when you apply force in one direction (the effort), the load moves in the opposite direction. This arrangement can provide a mechanical advantage, allowing you to move a larger load with a smaller effort, depending on the distances from the fulcrum to the load and to the effort point.
Good explanation
So good
Multiple errors showing the wrong lever type during the description - see if you can find them. The words are true but some of the examples are incorrect. I'm going to use this as a review assignment with my Science 14 class.
There are bottle openers that are 2nd class levers, but not the one shown in this video.
This help me Alot🎉💗
Frl
shut up lil blacky
Thanks homework 70% accomplished
So glad you liked it. Good luck with your studies!
🙌❤made my homework alot more easier...thank you
Actually in your video there is many pictures you are not explaining properly so we can't understand properly
𝙺𝚒𝚗𝚍𝚊 𝚝𝚛𝚞𝚎
Not true
I think you need to learn grammar first
Thank you so much! so helpful for my homework!!!
In our book it is written load and effort are in same direction in class 1 levers but you said the opposite
In a class 1 lever, the load and the effort are not in the same direction; they are on opposite sides of the fulcrum. A class 1 lever is characterized by having the fulcrum located between the load (the resistance to be overcome) and the effort (the force applied to move the load).
Common examples of class 1 levers include seesaws and scissors. In these cases, when you apply force in one direction (the effort), the load moves in the opposite direction. This arrangement can provide a mechanical advantage, allowing you to move a larger load with a smaller effort, depending on the distances from the fulcrum to the load and to the effort point.
@@NGScience.......😊
Perfect❤
Thankyou
thnaks
hut up!!!!11!!!1
so rude
WTF
@@ЕвгенияСамойлова-щ7г wtf
0:00 0:00
I don't understand
Thankyou so much for y
🎉
666 likes completed
Good try but can explain better🤔
Nihao
Goood idc
𝚆𝙳𝚈𝙼
𝙽𝚘𝚝 𝚔𝚒𝚗𝚍𝚊 𝚝𝚛𝚞𝚎
What the skibidi?!
No way
@@xoxo.kuromistar𝚘𝚑 𝚜𝚔𝚒𝚋𝚒𝚍𝚒 𝚛𝚒𝚣𝚣
Sese