Solving the Physics of a Curling Stalemate

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In the discussion about a curling stalemate, two contestants are unable to move a 20.6 kg stone due to opposing forces, with contestant A applying 15.1 N. The problem requires determining the horizontal force exerted by contestant B, which must equal the force from A to maintain equilibrium. Participants express confusion about how to approach the problem, particularly in identifying relevant equations and forces acting on the stone. The key takeaway is that the net force on the stone is zero, indicating a balance of forces. Understanding the forces involved is crucial for solving both parts of the problem.
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Homework Statement


Two curling contestants dispute possession of a stone of mass 20.6 kg. The mass of contestant A is 58.9 kg, whereas that of contestant B is 101.7 kg. Contestant A pulls on the stone with a horizontal force of 15.1 N, but is unable to break contestant B’s grip. The result is a stalemate (the stone does not accelerate).

a) Neglecting (for now) frictional forces between the stone and the ice, what is the horizontal force that contestant B exerts on the stone? [Note: Indicate a pull (a force in contestant B’s direction) by a positive sign and a push (a force in contestant A’s direction) by a negative sign.]

b) What is the minimum coefficient of static friction required between the contestants and the ice (assume that it is the same for both contestants)?


Homework Equations


F=ma



The Attempt at a Solution


I do not even know where to start
 
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Diagram!
Show the forces acting on the curling rock.
Note that it does not accelerate.
 
I'm still a little confused on how to solve this. Can you please elaborate on how to solve this problem.
 
<--- rock ---->
The size of the forces was given - put them on the diagram.
Write that the sum of the forces equals ma
 
worst.help.ever.
 
elcaptain said:
worst.help.ever.

And, appropriately so. Other than writing "F=ma" the OP has not demonstrated any real effort, as is required to receive help here.
 
I have the same question, and the relevant equations for the section are Energy equations and possibly momentum equations.

K=.5mv^2=Fd

m1v1=m2v2

however, like the OP, as the stone is at rest and has zero net acceleration/ force I do not know which equation to even use. If anyone caould point us in the right direction, I would be quite appreciative as well
 
oh and F frictional=mu*Normal Force
 
Start with part (a), and list all the forces that are acting on the stone. As you noted, the net force on the stone must be zero.
 
  • #10
Its deceptively simple!
 

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