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Newton's Third Law - Can you explain?
Here is day 3 of my awfully awesome video demos! I am so happy so many of you continue to view these. Please do not stop watching these! By now, you have learned all about Newton's Laws because of the posts on the weekly blog. Can you explain to me how this video shows Newton's Third Law? Please make a comment because I am enjoying seeing your responses. Thanks for all your work! ***** HAPPY BIRTHDAY XZINARE*** (You share the same birthday as Amelia!)
53 Comments
Josiah Carter
3/18/2020 11:08:45 am
Newton's third law is: For every action, there is an equal and opposite reaction.So,when the hook goes through the car and the dude starts to back up the car he hooked backs up with him,but then the car is hooked by another car and then another which all start pulling different directions,which means according to the newtons third law the car should start moving toward the car that is pulling it.But it cant because of all the other actions that are being acted on it. According to the law of inertia an object in motion will stay in motion with the same speed and direction unless acted upon by unbalanced force. So,due to the car being acted upon by unbalanced force the cars mass is going in seperate directions which causes the car to be stuck in the middle of all of the actions and not be able to go far one way or the other.
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Laurel Holder
3/18/2020 01:08:22 pm
Josiah, I really enjoyed your analysis and you breaking down the different laws you saw! Great Job :)
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Ryan Estrada
3/18/2020 11:09:59 am
The clip applies to Newton's third law of motion because when the other cars were pulling on the one car, it wasn't ripping apart because it was exerting an opposite and equal force on the cars pulling it. Also happy birthday Xzinare!
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Laurel Holder
3/24/2020 07:30:30 pm
Ryan, Great post thank you for your explanation, it was accurate. (Yay to a bday shout out! You rock)
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sabrina ramon
3/18/2020 11:17:50 am
The video shows Newton's third law of motion because when the cars were pulling on the middle car, it wasn't pulling the car apart because it was exerting an opposite and equal force on the cars pulling it.
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Laurel Holder
3/24/2020 07:31:08 pm
Sabrina,
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Audrey Vargas
3/18/2020 11:28:45 am
The clip that was shown showed Newton's third law of motion because in the clip all the other cars where pulling the car in the middle as the other cars back up. The reason for this is that Newton's third law shows when an object is pulled the action is resulted to an interaction with another object, which states that for every action there is a equal or opposite reaction.
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Laurel Holder
3/24/2020 07:32:08 pm
Audrey thank you for your great response. I liked how you explained everything along with what the law stated. Keep up the good work.
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Jane Acosta
3/18/2020 11:34:24 am
The video applies to Newton's third law of motion because when the cars were pulling the car in the middle it didn't get pulled apart because there was an equal force on each side. One side didn't have more force then the other it was equal.
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Laurel Holder
3/24/2020 07:34:41 pm
Jane, thank you for your post. This definitely showed Newton's Third Law due to the interaction among all the cars. Forces always comes in pairs! Keep up the good work.
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Kelsie White
3/18/2020 11:42:53 am
The video applied to Newton's 3rd law because it showed that for every action, there is an equal and opposite reaction. Due to the equal force coming from each car the middle car was not pulled apart but remained in the middle.
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Laurel Holder
3/24/2020 07:35:14 pm
Kelsie great job! Keep up the good work.
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Edith Banos
3/18/2020 11:44:05 am
The video clip shows newtons 3rd law by, when all the other cars were "attatched" to the middle car, the middle car didnt pull appart because it had an equal force distribution.
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Laurel Holder
3/24/2020 07:36:43 pm
Edith, Amelia smiled and said thank you! Your response was accurate because when the cars "attached" to the middle car, the force described would be Newton's Third Law. Keep up the good work.
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Syria Timothee
3/18/2020 11:59:14 am
The video shows Newton's 3rd law of motion because when the cars were pulling the other car it wasn't falling apart or disintegrate. In Newton's 3rd law of motion it states that for every action, there is a pair of forces acting on the two interacting objects.
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Laurel Holder
3/24/2020 07:39:52 pm
Syria great response! Thank you for your post, and I like how you used the word "pair" because forces do come in pairs. :) Keep it up.
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Nathan Garcia
3/18/2020 12:30:24 pm
The 3th law of motion says "A force is a push or a pull that acts upon an object as a results of its interaction with another object." when all the cars where pulling on the middle car the car did was not falling apart due to all cars had equal distribution force of distribution.
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Laurel Holder
3/24/2020 07:51:04 pm
Nathan great job with describing Newton's Third Law. I liked how you mentioned the equal distribution of forces. Keep up the good work.
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Edna
3/18/2020 12:45:36 pm
This shows Newton's third law of motion because all the cars are excreting a big force on the middle car. Though, because of the law that states that for every force that is given the same one is given back, the middle car shows the same amount of force towards all the other cars.
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Laurel Holder
3/24/2020 07:49:03 pm
Edna, I LOVED how you made the reference that it took all those cars to match that one cars force in the middle to make this apply to Newton's Third Law. Keep up the good work.
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Olivia Hale
3/18/2020 12:52:28 pm
The clip shows Newton’s third law when the two cars on the outside were pulling but the car in the middle dident break. it dident break because there was an opposite and equal force.
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Laurel Holder
3/24/2020 07:51:42 pm
Olivia thank you for your post. It was accurate and to the point.
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Destiny Bell
3/18/2020 01:21:47 pm
Newtons third law of motion states that "For every action there is an equal and opposite reaction." This law applies to the clip because it explains why the far didn't rip apart even though it was being pulled at. The car did not break because there was an equal amount of force being applied to the car.
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Laurel Holder
3/24/2020 07:47:07 pm
Destiny, thank you for your responses and explaining where the Third Law came into play in the video. Great post and thanks for the birthday shout outs! Amelia said thank you :)
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alex peeples
3/18/2020 02:57:44 pm
Newtons third law states that "for every action there is an equal and opposite reaction." This explains why the car didn't rip apart when the other cars where pulling it.
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Laurel Holder
3/24/2020 07:53:01 pm
Alex, I do not disagree with your post. You explained the law in its most basic form and gave an example from the demo. Thanks for sharing.
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Joy Dikko
3/18/2020 03:01:07 pm
Well according to Newton’s Third Law of motion, every action has an equal and opposite reaction. This is why Ms. Holder does not fall through the floor or through the seat. As Ms. Holder sits on the chair and exerts an action force to push the chair down the chair pushes up on her. This can also be seen in the video.The guy in the middle is being pulled into multiple directions which would be the pull and action forces. As the other guys pull his car, he is also exerting force on them but because of the resistance and force of the other cars he can’t move from the center and is practically stuck in the middle.
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Laurel Holder
3/24/2020 07:54:57 pm
Joy! :) No words needed smiles from me. What a great post thank you for explaining it all nice and neat. I couldn't have done it better myself.
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Jessica Adim
3/18/2020 03:42:34 pm
Newton's third law states "Whenever one object exerts a force on a second object, the second object exerts an equal and opposite force on the first.". In this clip we see the first person hook onto the car, so that meant the car in the middle had an opposite force, and this applied to the rest of the cars, but cant move due to resistance. The reason why you didn't fall through the chair or the floor was because they were exterting a force against you as well.
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Laurel Holder
3/24/2020 07:56:40 pm
Jessica what a great response. Thank you for explaining all the demos I did and accurately. Great Job!! :)
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Justin Winn
3/18/2020 06:51:09 pm
The hook (action force) hooks on to the car(reaction force) they push on each other in opposite directions all around the car making it unable to move.
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Laurel Holder
3/24/2020 07:59:16 pm
Justin, this statement is true only if the forces are equal...and in this video they were. Make sure to add everything needed to make it true. Great job! Keep up the good work.
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Alexander Brown
3/19/2020 07:31:09 am
Newton's third law of motion states," For every action, there is an equal and opposite action." When all the vehicles try to move once they all attached to Dom, he stays still resisting their pull. The reason for this due to Newton's third law. As they're pulling, Dom's car is naturally pulling in the opposite direction with equal force. Dom in this instance is the opposite and equal reaction.
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Laurel Holder
3/24/2020 08:00:36 pm
Alex, perfect response. You explained what the law was and gave the example of how it applied to the demo that was showed. Keep up the good work!
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Jayden R
3/19/2020 12:14:48 pm
This demo represents Newtons 3rd law because the car isn't able to move when the opposite force is produced by the other cars pulling on the car in the middle. So the cars pulling the car in the middle are the opposite actions(forces)
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Laurel Holder
3/24/2020 07:47:57 pm
Jayden thank you for your post. You explained Newton's Third Law and how it applied to this example perfectly.
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alexcia cabell
3/19/2020 01:49:57 pm
This scene, and the reason why we don't fall through floors or chairs applies to Newton's third law because it states that every action has an equal and opposite reaction. When we exert force onto the floor, the floor exerts an equal force onto us. In the clip the car wouldn't break but also wouldn't move because the same amount of force pushed onto it by the other cars was also pushing onto them.
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Laurel Holder
3/24/2020 08:05:28 pm
Alexcia great response. Thank you for explaining not just the car, but the floor. Keep up the good work.
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Sam
3/19/2020 03:15:17 pm
Newtons 3rd law is about equal and opposite reaction. This applies to the floor, chair, and Dom’s car because all had a force exerting against you as well as you and the cars which were also exerting force.
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Laurel Holder
3/24/2020 08:06:40 pm
Sam the key concept is equal force...this is what truly explains these concepts. Keep up the good work.
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Musa
3/19/2020 03:28:09 pm
A force is a push or a pull that acts upon an object as a results of its interaction with another object. ... These two forces are called action and reaction forces and are the subject of Newton's third law of motion. Formally stated, Newton's third law is: For every action, there is an equal and opposite reaction.
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Laurel Holder
3/24/2020 08:07:55 pm
Musa that explains Newton's Third Law. Cannot argue that statement at all, next time attach it to the demo to give it more validity. Keep up the good work!
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Cashis Sidney
3/20/2020 11:59:15 am
There's an opposite and equal force from the cars' resistance making it neutral, so no movement.
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Laurel Holder
3/24/2020 08:03:58 pm
Cashis, it is not moving forward or backward so it is balanced...The car happens to be in the middle because of the cars having equal force. Make sure to give me the full explanation. This way I can see if you understand it fully. Keep up the good work!
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Olivia Hardman
3/20/2020 01:13:47 pm
Newton's third law is: For every action, there is an equal and opposite reaction. Because the car in the middle was being pulled by every direction it didn't move. The car will not move because each car surrounding it is pulling the car using the same force.
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Laurel Holder
3/24/2020 08:01:31 pm
Olivia, great job explaining it all. Keep up the good work :)
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Melissa Gonzalez
3/20/2020 04:08:18 pm
Newton's third law is represented in this video clip by having cars exert a force on another object being the car in the middle. Where then according to the law the second object (the car in the middle) is exerting an equal and opposite reaction then keeping the car together.
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Laurel Holder
3/24/2020 07:50:06 pm
Melissa thank you for your post. You did a great job explaining it.
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Kortlyn Riley
3/20/2020 05:13:15 pm
Newtons third law says," For every action, there is an equal and opposite reaction". This law is the very reason we don't fall through the floor. When we put force in the floor the floor exerts that same force onto you so you don't fall through the floor. This is also like if you try to push a wall the wall will push back against you. In the clip the car is getting pulled in every direction using the same amount of force and that is why the car doesn't move. If one of the cars that is pulling the car in the middle does not pull with the same force the car would go flying in the other direction.
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Laurel Holder
3/24/2020 07:38:01 pm
Kortlyn great response. I appreciate all the work you put into explaining all the parts that were mentioned in the demos. Keep up the good work.
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Machi Gillard
3/27/2020 07:13:35 am
The reason the clip depicted Newton's third law was because all of the cars pulling against the car in the middle each pulled that car with an equal amount of force, which caused that car to stay in place
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Alicia
3/27/2020 11:08:19 am
The clip with the cars applies to Newton's Third Law because when all the hooks went through the car in the middle the cars on the outside were applying an equal and opposite force.
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Ian
3/27/2020 12:24:46 pm
The reason the clip depicted Newton's third law was because all the cars outside the one in the middle were applying an equal amount of force which caused it to stay in place. :<
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