What is the tension in each cord?

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The discussion revolves around calculating the tension in cords supporting two 3.5 kg paint buckets. For part (a), when the buckets are at rest, the tension in the upper cord is equal to the weight of both buckets, while the lower cord's tension equals the weight of the lower bucket alone. In part (b), when the buckets are accelerated upwards at 1.80 m/s², the tension in the upper cord increases due to the additional force required for acceleration, while the lower cord's tension also reflects this acceleration. Participants emphasize the importance of drawing free body diagrams to visualize forces acting on each bucket. Understanding these concepts is crucial for solving the tension problems accurately.
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Homework Statement



One 3.5 kg paint bucket is hanging by a massless cord from another 3.5 kg paint bucket, also hanging by a massless cord.


(a) If the buckets are at rest, what is the tension in each cord?

(lower cord)
(upper cord)

(b) If the two buckets are pulled upward with an acceleration of 1.80 m/s2 by the upper cord, calculate the tension in each cord.

(lower cord)
(upper cord)



Homework Equations



I'm not sure on what equations to use or anything.

The Attempt at a Solution



Everything I've been doing is wrong. I tried adding it up and dividing by gravity, then subtracting and dividing by gravity and I don't know what else to do.
 
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Em you might want to solve your original problem first, that should help you with this one, and it's not really advisable to try to do 2 together.
 
I'm not doing it together. I put it up now so I wouldn't forget about it?
 
Step 1: Draw the free body diagram, and label all the forces acting on both buckets.

Have you done this? Describe all the forces you've got.

Example: Forces acting on upper bucket are <blah1> in the <foo1> direction, <blah2> in the <foo2> direction, etc.
 

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