Pulley Problem 1: Calculating Masses Acceleration & Tension

AI Thread Summary
The discussion revolves around calculating the acceleration and tension in a pulley system involving two masses, m1 = 45 kg on a frictionless table and m2 = 5 kg hanging. The acceleration for both masses is determined to be 1 m/s², with the tension in the rope calculated at 45 Newtons. Participants clarify that the negative sign in acceleration relates to the chosen coordinate system and does not affect the physical outcome. The relationship between the two masses ensures that their accelerations are equal in magnitude, while the tension is influenced by the gravitational force acting on m2. Overall, the calculations confirm that the system's dynamics are consistent with the principles of Newtonian mechanics.
Anthonyphy2013
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Homework Statement


An object of mass m1 =45kg sits on a horizontal frictionless table. A rope is attached to it , which runs horizontally to a frictionless pulley , then down to a hanging mass m2 = 5kg
a) the acceleration of each mass
b) the tension in the rope


Homework Equations


a1=-a2
y component : F net = mg-t= ma2
x -component: F net : T=Ma1

The Attempt at a Solution


I just wonder there are differeent acceleration and that realtionship of them was the negative sign only ?
 
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I just wonder there are differeent acceleration and that realtionship of them was the negative sign only ?
The sign just depends on the definition of your coordinate system, it has no physical meaning.
The length of the rope is constant, therefore the magnitude of the acceleration is the same for both objects.
 
you mean the magnitude of the acceleration depends on the length . Could it be dependent on the tension as well ? Let's say , one rope is pulling the mass on the table on a horizontal frictionless pulley with the acceleration and that pulley is hanging two rope to the hanging mass going down. So the acceleration of the hanging mass is -1/2 a.
Is that true ?
 
Anthonyphy2013 said:
you mean the magnitude of the acceleration depends on the length .
No, that's not what mfb wrote.
You have to decide, separately for vertical and horizontal, what your sign convention is.
Since you have m2g-T= m2a2, it looks like a2 is positive down (as it has the same sign as g). If in the horizontal positive is towards the pulley then you should have a1=a2.
 
pulley

acceleration of the system as a whole (sign convenctions can be assigned to our wish.usually up,right +tive down,left -tive)

a=total force acting/total mass = 5 g/(5+45)=1 Newton.tension in the string is due to the its elastic forces.T=m1*a=45*1=45 Newton
equations: m2g-t=m2a
m1a=t
 
Last edited:
physcrazy said:
acceleration of the system as a whole (sign convenctions can be assigned to our wish.usually up,right +tive down,left -tive)

a=total force acting/total mass = 5 g/(5+45)=1 Newton.


tension in the string is due to the its elastic forces.T=m1*a=45*1=45 Newton
equations: m2g-t=m2a
m1a=t
a = 1 m/ s2 not 1 Newton ...minor typing error!
 

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