Does Wire Diameter Affect Tension in Vertically Suspended Loads?

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AI Thread Summary
The discussion revolves around two questions regarding tension in wires and string supporting loads. For part (a), it is questioned whether tension remains equal in two vertically suspended wires of different diameters, with some confusion about the impact of wire mass and material properties. In part (b), participants are trying to determine the tension in a string supporting a 50N picture, with suggestions to use a Free Body Diagram to analyze the forces involved. The importance of understanding the forces acting on the system and how to properly represent them in a diagram is emphasized. Overall, the conversation highlights the need for clarity in applying physics concepts to solve tension-related problems.
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Homework Statement



2 questions:
a) Discuss whether the tension is the same throughout two wires, one of which has twice the diameter of the other, which are joined end to end and hung vertically to support a load.

and when supporting a heady chain hanging vertically.

b) Framed picture of weight 50N is to be hung on a wall using a piece os string. String tied to two points, 0.6m apart on the same horizontal level on the back of the picture. Find the tension in the string if it is 1m long, 0.66m long.

Homework Equations



F=m*a

The Attempt at a Solution



a) Really don't understand... both should be equal? There's no reason for them to be unequal just because of size difference?

b) 50/2 on each?? Really confused how horizontal tension correlates the the upwards tension of holding up the weight of the picture
 
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For (a), what happens if the wires are made of some real material with mass?

For (b), draw a Free Body Diagram for the system. Identify the forces acting and their components.
 
The mass of the wires is small enough to be neglected.

EDIT: I don't know what forces to draw on the free body diagram. Weight of 50N downwards... then? 2 25N's on each pin?
 
danielnjoo said:
The mass of the wires is small enough to be neglected.
Then you should neglect their geometry, too :smile:
EDIT: I don't know what forces to draw on the free body diagram. Weight of 50N downwards... then? 2 25N's on each pin?

You should take a look at your notes or course materials to see what sorts of forces are involved, and perhaps some examples of FBDs. There are lots of examples and tutorials on the web, too. For example:

http://www.physicsclassroom.com/class/newtlaws/u2l2c.cfm
 

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