@@franksmith9027 word centrifuge was given to different appliances just because the bodies are in rotating frame. When clothes are in the washing machine they are in rotating frame of reference and they "feel" the force that moves them outward. That is why they are stuck to the wall. But if someone is looking clothes from the outside in another reference (linear) frame they will not be able to tell that clothes are feeling an outward (centrifugal) force. And that is why centrifugal force is an apparent or pseudo force.
centripetal force is a real force that acts inward to keep objects in circular motion, while centrifugal force is the apparent outward force experienced by objects in circular motion due to their inertia
🔵 I will address the Rock-and-string demonstration regarding "Centripetal force": That which is restraining the rock from flying off when it is swung in a circle is actually not a "Force" in any way whatsoever!,...it is the STRING!,.....the restraining effect of the string on the rock is therefore not a "Force" as it requires the string to be immobilized at the end-point opposite The Rock.
When you swing a rock on a piece of string your hand exerts a centripetal force on the rock via the string. The rock reacts by exerting a centrifugal force on your hand via the string. This satisfies Newton's Third Law which informs us forces go in pairs and are equal and opposite.
This video is confusing. It implies that a stationary observer experiences a centrifugal force. Well, that's simply wrong. The "centrifugal force" is only experienced by someone traveling along with the stone. He notices an outward force, being balanced by the tension of the string. This tension is not the centripetal force according to the rotating observer; after all, he is traveling along witht the stone and observers that the stone is standing still! But from the stationary observer this "centifugal force" is simply the inertia of the stone, trying to following a straight path. This stationary observer only observes the centripetal force, pulling the stone into a curved trajectory.
Incorrect. The rock stays away from the hand because it’s accelerating in tangent direction, not because the centrifugal force. The centrifugal force is only real and experienced by non inertial reference frame. If you happen to be the rock, you consider yourself to be still while everything around you rotates. You do feel the centripetal force, but from your point of view, you’re not accelerating. So for you, there must be a force in the opposite direction, which is the centrifugal force.
When the rock is thrown outward tangentially it will be pulling the string outwards radially thus any force exerted via the string will be either centripetal or centrifugal depending on its direction.
You have a problem with this video. You say when the bus is moving in the bend the passengers experience centrifugal force. The passengers in the bus are rotating and thus will be subject to a centripetal force, plainly they cannot also be subject to a centrifugal force since these two forces will cancel each other out. If you go around a bend in a bus your body is thrown outwards due to its inertia and will exert a centrifugal force on the side of the bus which is passed through to the road. From this you can see a rotating mass exerts a centrifugal force, it is not subject to such a force.
@@franksmith9027 ur right. The seemingly centrifugal force is actually fictitous. :) It's the point of reference that makes ppl think that a force is pulling them away from the center. When you're within the circle, say for example, riding an extreme carousel, you feel like you're being thrown "away" (which is why you would easily think it' a centrifugal force). It's actually the centripetal force and acceleration doing its work, keeping you within the radius. I dont know if i explained it properly, sorry.
@@debydreams2675 wait doesn't both centrifugal and centripetal forces happen during that situation which makes the object to stay in position, having zero net force?
If the centeral point is not anchored would they both not rotate about the center of mass? I asked Chat GPT the following question "Is it possible to create a uni directional force using centrifugal force alone?" Initially it said "No, it is not possible to create a unidirectional force using centrifugal force alone. ..." Later on in conversation, after describing a system of two donut shaped cavities with fluid flowing in opposite directions and where corresponding sections have a restricted cross sectional area, it said "It is possible to use unbalanced centrifugal forces for propulsion,....". If you would like a copy of the dialog I do have it.
Completely wrong and misleading, no such thing as centrifugal force. Bus accelerates as direction changes, passenger's inertia makes them maintain their direction of motion.
Okay but the number on the t shirt of the cyclist💀
I would add that centrifugal force is an apparent force, not a real force
If the centrifugal force is not real why do we centrifugal governors and why is a centrifuge given this name and what about centrifugal pumps?
Thank you😊
instead of saying real, saying pseudo force would be more correct in my opinion
@@franksmith9027 word centrifuge was given to different appliances just because the bodies are in rotating frame. When clothes are in the washing machine they are in rotating frame of reference and they "feel" the force that moves them outward. That is why they are stuck to the wall. But if someone is looking clothes from the outside in another reference (linear) frame they will not be able to tell that clothes are feeling an outward (centrifugal) force. And that is why centrifugal force is an apparent or pseudo force.
Awesome video with good explaination keep it up👍👍
Finally a video that's so clear thank you so much ❤❤
excellent explanation, thanks.
centripetal force is a real force that acts inward to keep objects in circular motion, while centrifugal force is the apparent outward force experienced by objects in circular motion due to their inertia
but centripetal force is a psuedo force
Good Explanation.
Nice video
Really good animated
Explaination way is
Supreme👍🏼👍🏼👍🏼👍🏼
Gg
Wow iam like for yoar video is 1000 👍
Thank you😊
Well explained ❤
Nice explanation, thanks 👌
that ‘ayron’(iron) tho
yes
Great explanation.... 👍🏻👍🏻
Very good video I clearly understood the concept good work
ya man
🔵 I will address the Rock-and-string demonstration regarding "Centripetal force": That which is restraining the rock from flying off when it is swung in a circle is
actually not a "Force" in any way whatsoever!,...it is
the STRING!,.....the restraining effect of the string on the rock is therefore not a "Force" as it requires the string to be immobilized at the end-point opposite The Rock.
The string can be considered as part of the rotating mass and can be ignored.
When you swing a rock on a piece of string your hand exerts a centripetal force on the rock via the string. The rock reacts by exerting a centrifugal force on your hand via the string. This satisfies Newton's Third Law which informs us forces go in pairs and are equal and opposite.
Wow💥💥
Thankx
finally, the stone breaks me down
Awesome ,bro i have never ever had seen such a awesome animated explanation
🥰🙏🏻 thanks form India ❤️
Very well explained.
What if the centrifugal force is light weight what is the cause in centrifugal way?
Good👍
That's Clear 🔥
Thank you so much
Epic animation
yes i liked my own comment
Great
Superbb
Very very nice thank u 😘
Excellent explained thanx 🥰🥰
Ur voice is like Esme of peaky blinders
Thanks
Finely I understand after watching to many video
This video is confusing. It implies that a stationary observer experiences a centrifugal force. Well, that's simply wrong. The "centrifugal force" is only experienced by someone traveling along with the stone. He notices an outward force, being balanced by the tension of the string. This tension is not the centripetal force according to the rotating observer; after all, he is traveling along witht the stone and observers that the stone is standing still! But from the stationary observer this "centifugal force" is simply the inertia of the stone, trying to following a straight path. This stationary observer only observes the centripetal force, pulling the stone into a curved trajectory.
very good
Ooooh tnk u omg thank u very much🥺😊😊😊
Thanks 👍
Detail explain #physicsconect
Nice
Good
Nice explanation
Does that mean,for a rotation to keep in motion,there should be a balance between the centripetal and the centrifugal force?
Yup
Incorrect. The rock stays away from the hand because it’s accelerating in tangent direction, not because the centrifugal force. The centrifugal force is only real and experienced by non inertial reference frame. If you happen to be the rock, you consider yourself to be still while everything around you rotates. You do feel the centripetal force, but from your point of view, you’re not accelerating. So for you, there must be a force in the opposite direction, which is the centrifugal force.
When the rock is thrown outward tangentially it will be pulling the string outwards radially thus any force exerted via the string will be either centripetal or centrifugal depending on its direction.
You're right👌...Understanding the threshold of the most important knowledge czcams.com/video/j89sJGy3S5U/video.html
People from icse like it
Sure!!
Why other video use difficult term and word and phrases? This video is quit simple and lucid👍👍
nice teaching
Very very very nice explanation 😁😊👌😀
You have a problem with this video. You say when the bus is moving in the bend the passengers experience centrifugal force. The passengers in the bus are rotating and thus will be subject to a centripetal force, plainly they cannot also be subject to a centrifugal force since these two forces will cancel each other out.
If you go around a bend in a bus your body is thrown outwards due to its inertia and will exert a centrifugal force on the side of the bus which is passed through to the road. From this you can see a rotating mass exerts a centrifugal force, it is not subject to such a force.
She said correct
Bus jerks the force towards outwards that is in right
Which is away from centre
Yes she is correct
@@anshikajain5982 As I said, an object subject to two equal and opposite forces is subject to no force at all.
@@franksmith9027 ur right. The seemingly centrifugal force is actually fictitous. :) It's the point of reference that makes ppl think that a force is pulling them away from the center. When you're within the circle, say for example, riding an extreme carousel, you feel like you're being thrown "away" (which is why you would easily think it' a centrifugal force). It's actually the centripetal force and acceleration doing its work, keeping you within the radius. I dont know if i explained it properly, sorry.
@@debydreams2675 wait doesn't both centrifugal and centripetal forces happen during that situation which makes the object to stay in position, having zero net force?
Thanks mam for explain about the forces
Best
Thanks mam to teach
Thanks😊😊
Op
A better explanation is available at
www.youtube.com/@Gravitation_Gravitivity
😛
Nice video madam
Nicw teaching
👍👍
Good work
How big its that hand the rope has 1m.....
Why 69😁
☯
Tq 💕
Am I the only one who noticed the cyclists tshirt no.
saying 12 Centripetal and Centrifugal Force but showing only Centripetal
Well understood 💯
Thanku mam😊
noiceeeeeeeeeeeeeeeeee
I wanted bengali or hindi language 😕
69
Nice
Kavalam
Problem.....
I want tamil❤
If the centeral point is not anchored would they both not rotate about the center of mass?
I asked Chat GPT the following question "Is it possible to create a uni directional force using centrifugal force alone?" Initially it said "No, it is not possible to create a unidirectional force using centrifugal force alone. ..." Later on in conversation, after describing a system of two donut shaped cavities with fluid flowing in opposite directions and where corresponding sections have a restricted cross sectional area, it said "It is possible to use unbalanced centrifugal forces for propulsion,....". If you would like a copy of the dialog I do have it.
i did not understand your statements
You have a problem with this video
what on earth is this accent lmao
there is no centrifugal force it is a fictitious force (not an actual force) and depends only on point of reference. research it
Its crap dude..why do u confuse people...we consider centrifugal force when we are in a non inertial frame of reference not from outside
Completely wrong and misleading, no such thing as centrifugal force. Bus accelerates as direction changes, passenger's inertia makes them maintain their direction of motion.
우
I wanted Hindi language ok 😭
Me to
Hindi theriyathu poda..
@@rgprakash5385 🤔🤔🤔 kya
U got the accent instead
I hope there's no jumpscare in this video
Good
Best