Solve Tetherball Problem: Find Rope Tension & Pole Force

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The discussion revolves around calculating the tension in the rope and the force exerted by the pole on a tetherball. The tetherball, with a radius of 0.300 m and mass of 0.400 kg, is attached to a 2.00 m long string and leans against the pole. The user initially misunderstood the problem by thinking there were two ropes involved but clarified that only one rope applies vertical force to counteract gravity. They calculated the angle between the pole and the ball using trigonometry, leading to a better understanding of the forces at play. The focus remains on accurately determining the tension and pole force before the submission deadline.
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Hi. I know it is rude to have your first post be a question, but I am out of time for this (it is due in an hour), so if someone could help, it would be greatly appreciated.

A tether ball leans against the post to which it is attached (Fig. 5-40). If the string to which the ball is attached is 2.00 m long, the ball has a radius of 0.300 m, and the ball has a mass of 0.400 kg, what are the tension in the rope and the force the pole exerts on the ball? Neglect any friction between the ball and the pole. (The string is attached to the ball such that a line along the string passes through the center of the ball.)

Find the Tention in the Rope

Find the Force of pole on ball


UPDATE: I just got the first one. I was accidentally thinking that there were 2 ropes pulling it.
I have tried 4 times (its an online submition thing) and only have one more shot. Any help would be appreciated.
 
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What I have tried so far:
To solve for the angle between the poll and ball:
Theta=ArcSin(.3/2.3)=7.43 degress
 
the rope is the only thing capable of applying a vertical force, so it must take care of gravity entirely. Then you need to figure out what the horizontal forces look like (given the angle, and the vertical force, it's basic triangle trigonometry)
 

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