What Happens to the Acceleration When the Thread Snaps?

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    F=ma
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When the thread snaps, the acceleration of the masses is determined by the forces acting on them, specifically the spring's ability to support the combined weight. The 50N spring balance indicates it can hold both the 1kg and 2kg masses before the thread is burned. Upon snapping the thread, the top mass experiences an upward force from the spring, leading to an acceleration that can be calculated using F=ma. If the spring were weaker, it wouldn't be able to lift the top mass after the thread snaps. Understanding the spring's strength is crucial for determining the resulting accelerations of both masses.
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Homework Statement


A mass of 1kg is suspended from a 50N spring balance, and then a thread from the first mass suspends a further mass of 2kg. The thread is then burned through. What is the acceleration of each mass at the instant the thread snaps?

Homework Equations


F=ma

The Attempt at a Solution


Well the problem is that I don't understand the question; I am not sure how to include the 50N.
Can someone reword the question for me so that it is more understandable?

At the moment I'm thinking F=(3g+50/g)+(3+50/g)a
 
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I think the 50N is mentioned to tell you that the spring is capable of suspending the two masses, and to spring back if the mass at the bottom is suddenly detached.

Before the thread is burnt, the spring is exerting the required to lift both masses against gravity. When the thread is burnt, the spring would suddenly yank the mass on top upward. The question is asking for the accelerations of the two masses in that instance.

If the question did not mention that the spring is 50N, and the spring was only 5N, then even if the thread is burnt, the load on top would not move because the spring itself is not strong enough to lift it.
 
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