What is the Minimum Speed to Complete a Loop?

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The discussion centers on determining the minimum speed required for an object to complete a loop without falling due to gravity. It is established that the object must have a speed greater than zero at the maximum height of the loop to maintain contact. The calculations indicate that the initial speed must exceed 2√(Rg) for the object to pass the loop successfully. Further analysis using Newton's second law reveals that the minimum speed at the top of the loop must satisfy the condition V1²/R > g, leading to V0 > √5gR for the initial speed. The conversation emphasizes the importance of considering both energy conservation and the forces acting on the object to find the correct minimum speed.
Anza Power
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Just want to know, you have a mass moving frictionlessly as follows:

http://upswf.com/show.php?filename=1290256802718_aaa

Is it true that the object will pass the loop without falling (by gravity) if at the maximum height point the speed is larger than zero? (I know in my animation it kinda reaches zero)

I used energy conservation to calculate it which brought me to the result:

V(initial)>2√(Rg)

If this is not true then what is the condition needed for the object not to fall?
 
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Anza Power said:
Is it true that the object will pass the loop without falling (by gravity) if at the maximum height point the speed is larger than zero?
No. The minimum speed to maintain contact at the top of a loop is greater than zero. (I can't view your link.)

I used energy conservation to calculate it which brought me to the result:

V(initial)>2√(Rg)

If this is not true then what is the condition needed for the object not to fall?

You need more than conservation of energy. Hint: Consider the forces acting on the object. Apply Newton's 2nd law.
 
Ah so v²/R is the force pushing the ball outwards so that needs to be equal to (and greater than?) g?

V1²/R>g

V1²*m/2 + mg2R = V0²*m/2
V1² + 4gR = V0²
V1² = V0² - 4gR

V1²/R > g
(V0² - 4gR)/R > g
V0²/R - 4g>g
V0²/R > 5g
V0 > √5gR

Is this correct?
 
Yes, assuming the problem is to find the speed at height = 0 that will allow the object to maintain contact at the top of the loop of radius r. (I cannot view your diagram.)

At the top of the loop the radial acceleration = v^2/r. The net downward force = mg + N (the normal force). So the minimum speed to maintain contact (where N just goes to zero) will be given by v^2/r = g.
 
It's a flash swf file, do you have flash player on your computer?

anyways it's just a normal track with a loop and what we were asked to find was the minimum intial speed at which the object could pass the loop...

Thank you for your help...
 
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