Calculating Object's Trajectory on a Circular Track

AI Thread Summary
To determine the height from which a 0.15 kg object must start to just complete a loop of radius 36 cm on a frictionless track, the energy conservation equation is applied: Mgh - Mg(2R) = 0.5MV^2. Solving this gives h = 2.5R, resulting in a height of 0.9 meters above the table. For calculating the distance from the table where the object lands, the kinematic equation Y = Voyt + 0.5gt^2 is used, with the initial vertical height adjusted to 1.62 meters. The calculations confirm that the first part is correct, and adjustments to the second part yield accurate results. The discussion emphasizes the importance of correctly applying physics principles to solve trajectory problems.
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Homework Statement


A frictionless track with a loop of radius 36 cm sits on a table 0.9 meters above the ground. If a 0.15 kg object just makes the loop, how high above the table did the object start and how far from the table does it land?




Homework Equations





The Attempt at a Solution


Can you check my work
Mgh - Mg(2R) = 0.5MV^2
gh - 2gR = 0.5V^2
once i solve for V i can use a kinematics equation to figure our how far from the table it lands?
 
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I think I misunderstood question first time.
 
Last edited:
Can you check my work
Mgh - Mg(2R) = 0.5MV^2
gh - 2gR = 0.5V^2
gh-2gR = 0.5Rg
h = 2.5R = 2.5(.36m)= 0.9
for the second part to figure out how far from the table it lands:
Y = Voyt + .5gt^2
0.9 = 4.9t^2
t = 0.428571s
x = Voxt
x =((Rg)^0.5)*t
 
First part is correct. For the second part, you have put Y = 0.9 m and Vox = sqrt(Rg).
But Vox = sqrt(Rg) at the top of the loop. At that time, the object's height from ground
= table's height from ground + object's height from table
= 0.9 m + 2R
= 0.9 m + 2*0.36 m
= 1.62 m
So put Y = 1.62 m
Rest is fine.
 

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