What equations should be used to calculate the tension in a rope?

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Homework Help Overview

The discussion revolves around calculating the tension in a rope that is pulling a block with a specified mass and acceleration. The problem is situated within the context of classical mechanics, specifically focusing on forces and motion.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants explore different equations related to tension and forces, questioning the appropriateness of the equations provided. There is a discussion about separating forces into components and the relevance of free body diagrams.

Discussion Status

Participants are actively engaging with the problem, with some offering guidance on using free body diagrams and identifying forces. There is a mix of interpretations regarding the application of equations and the setup of the problem, but no consensus has been reached yet.

Contextual Notes

Some participants express uncertainty about the equations to use and how to approach the problem, indicating potential gaps in information or understanding of the concepts involved.

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Homework Statement


A block is pulled up by a rope. The block has an acceleration of 5 \;m/s^2. The mass of the block is 5 kg. What is the tension in the rope?

Homework Equations


T = mg
a = \frac {F_{net}}{m}

The Attempt at a Solution


Not sure which equation I should use in this problem, don't know if I have the right relevant equations. Not sure where to get started.
 
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Tension is equal to mass time acceleration(g in the first equation). So:

T=(5m/s/s)(5Kg) = 25N

Tension is a force; you could use the other eq just the same.
 
Separate the forces into their x and y components, I find that always makes it easier. So do free body diagrams.
 
How do I separate the forces into x, y components?
 
Well you don't really have an x component for this problem but it's basically an extension of drawing a free body diagram. Say you have a block on an incline plane. There will be a force in the x direction and a force in the y direction, some of them, like gravity for instance will have a component in each direction. In that case you would use trig functions to get their values. But enough of the confusion….

In your problem you only have a mass on a rope, that is accelerating upward. You should immediately realize that there will be two forces at work here, the tension in the rope and the force of gravity working against it. These forces only work in the y direction and they are opposite of each other.

This is where Newton's equations come in…

F=ma

You have forces, and accelerations….now you need to figure out how to put everything together.
 

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