How Do You Calculate Tension and Work for a Sledge Pulled at an Angle?

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Homework Help Overview

The problem involves calculating the tension in a rope and the work done on a sledge being pulled at an angle on a horizontal surface, considering the effects of friction. The scenario includes a sledge with a specific mass, an angle of pull, and a coefficient of kinetic friction.

Discussion Character

  • Exploratory, Assumption checking, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the relationship between tension, normal force, and friction, with some expressing difficulty in determining the normal force due to the angle of the pull. Questions arise about applying the condition of zero acceleration and the calculations involved in finding the frictional force.

Discussion Status

Some participants have attempted calculations for tension and expressed uncertainty about the correctness of their results. There is a recognition of potential discrepancies due to rounding. Guidance has been offered regarding the equations relating tension, friction, and normal force.

Contextual Notes

Participants are working under the constraints of the problem statement, which includes specific values for mass, angle, distance, and the coefficient of friction. The discussion reflects a focus on understanding the relationships between these variables without providing definitive solutions.

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Homework Statement




A sledge loaded with bricks has a total mass of 17.4 kg and is pulled at constant speed by a rope inclined at 19.2° above the horizontal. The sledge moves a distance of 20.0 m on a horizontal surface. The coefficient of kinetic friction between the sledge and surface is 0.500.

(a) What is the tension in the rope?

(b) How much work is done by the rope on the sledge?

(c) What is the mechanical energy lost due to friction?


Homework Equations





The Attempt at a Solution



I am having trouble finding the normal force with the pull at 19.2 degrees. If anyone could help in solving this problem it would be greatly appreciated.
 
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I believe the key is that the acceleration is zero but I do not know how to apply it...
 
F-fk=MA but in order to find fk, I need to use fk=(coefficient of friction)(normal force) but i do not know how to find the normal force with the information given.
 
okay I got an answer of 76.76... I don't know if its correct
 
Solving for T, I got 76.97 N

I'm willing to bet the discrepancy is rounding.
To be sure, I used
mg-Tsin(θ) = N
friction = (mg-Tsin(θ))μ
Tcos(θ)=friction = (mg-Tsin(θ))μ

T(cos(θ) + sin(θ)μ) = mgμ

so, T =mgμ/(cos(θ) + sin(θ)μ)
 
Last edited:
thank you so much =]
 

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