Free Body Diagrams on friction less surface

AI Thread Summary
The discussion revolves around solving a physics problem involving two blocks connected by a pulley on a frictionless inclined surface. Participants are focused on drawing free-body diagrams and calculating the tension in the string, the acceleration of the blocks, and the time taken for the 270-g block to slide a certain distance. Key points include the correct identification of forces acting on each block, particularly the parallel and perpendicular components of gravitational force. It is clarified that both blocks share the same acceleration due to their connection via the rope. The conversation emphasizes the importance of setting up the equations correctly to solve for the unknowns.
dch1runs
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1. A frictionless surface is inclined at an angle of 34.4° to the horizontal. A 270-g block on the ramp is attached to a 75.0-g block using a pulley, as shown in the figure below.
(a) Draw two free-body diagrams, one for the 270-g block and the other for the 75.0-g block. (b) Find the tension in the string and the magnitude of the acceleration of the 270-g block. (c) The 270-g block is released from rest. How long does it take for it to slide a distance of 0.90 m along the surface? (d) Will it slide up the incline, or down the incline?



F=m/a



Ok, so I'm having a lot of problem finding part (a). I'm pretty sure once I do, that b-d won't be very difficult at all. I rewrote the F=ma equation for both objects based on my free body diagrams. For the 75g object I had: a=g-T/m or a=9.81 m/(s*s) - T/.075g. For the 270g object i found that a=T/m-g*cos34.4. However when I try to solve as a system of equations my answers continue to be incorrect. Maybe the accelerations for the two objects are different? If so, then I have no idea where to go from there.
 
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What's the component of the 270-g block's weight parallel to the incline?
 
Its not given, but I think its 9.81cos34.4?
 
dch1runs said:
Its not given, but I think its 9.81cos34.4?
No. First off, the weight equals mg. mg*cosθ would be the component perpendicular to the incline.
 
Does that mean that it would be mg/cos34.4?
 
dch1runs said:
Does that mean that it would be mg/cos34.4?
No. Learn how to find the parallel and perpendicular components here: http://www.physicsclassroom.com/Class/vectors/u3l3e.cfm"
 
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Thank you for that. So now I can find the perpendicular and parallel components. The parallel component would be m*g*sin(theta). Which in this example is .27kg*9.81m/(s*s)*sin34.4 I think. But its still not the magnitude of the acceleration, right? I know the site said to divide by the mass again, leaving the equation as g*sin(theta). But when I solve it, the application still tells me that I have the wrong answer. What else am I missing? Again thanks for your help.
 
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dch1runs said:
Thank you for that. So now I can find the perpendicular and parallel components. The parallel component would be m*g*sin(theta). Which in this example is .27kg*9.81m/(s*s)*sin34.4 I think.
Good.
But its still not the magnitude of the acceleration, right? I know the site said to divide by the mass again, leaving the equation as g*sin(theta). But when I solve it, the application still tells me that I have the wrong answer.
The acceleration would be g*sin(theta) if there were no other forces acting on the mass, but that's not the case here.
What else am I missing? Again thanks for your help.
Identify the forces acting on each mass and set up your force equations:
ΣF = ma (for mass #1)
ΣF = ma (for mass #2)

Then combine the two equations to solve for the tension and the acceleration.
 
So for the 75g object the forces acting on it are gravity and the rope.
F=m*a=m*g-T
The 270g object also has gravity (though only the parallel component) and the rope.
f=m*a=T-g*sin(theta)

But I still can't find the answer when putting them together and solving for tension and acceleration, are the accelerations different? If so then I only have two equations with three variables. I feel like I'm making this a lot more difficult than it really is.
 
  • #10
dch1runs said:
So for the 75g object the forces acting on it are gravity and the rope.
F=m*a=m*g-T
Good. To make sure you keep the masses separate, write it as:
m1*a = m1*g - T
The 270g object also has gravity (though only the parallel component) and the rope.
f=m*a=T-g*sin(theta)
You left out the mass when you found the parallel component of the weight. Write it as:
m2*a = T - m2*g*sin(theta)

Now try combining them. (Hint: Just add them.)
 
  • #11
Alright, so I finally got it! Thank you, although I do have one general question with this type of problem. How is it that both objects have the same acceleration, is it because they are connected by the rope and pulley?
 
  • #12
dch1runs said:
How is it that both objects have the same acceleration, is it because they are connected by the rope and pulley?
Exactly right. The connecting rope forces them to have the same acceleration. Cut the rope and they will move independently.

Note that in writing your equations you implicitly made use of that fact.
 

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