Respuesta :
Answer:
The first part can be solved via conservation of energy.
[tex]mgh = mg2R + K\\K = mg(h-2R)[/tex]
For the second part,
the free body diagram of the car should be as follows:
- weight in the downwards direction
- normal force of the track to the car in the downwards direction
The total force should be equal to the centripetal force by Newton's Second Law.
[tex]F = ma = \frac{mv^2}{R}\\mg + N = \frac{mv^2}{R}[/tex]
where [tex]N = 0[/tex] because we are looking for the case where the car loses contact.
[tex]mg = \frac{mv^2}{R}\\v^2 = gR\\v = \sqrt{gR}[/tex]
Now we know the minimum velocity that the car should have. Using the energy conservation found in the first part, we can calculate the minimum height.
[tex]mgh = mg2R + \frac{1}{2}mv^2\\mgh = mg2R + \frac{1}{2}m(gR)\\gh = g2R + \frac{1}{2}gR\\h = 2R + \frac{R}{2}\\h = \frac{5R}{2}[/tex]
Explanation:
The point that might confuse you in this question is the direction of the normal force at the top of the loop.
We usually use the normal force opposite to the weight. However, normal force is the force that the road exerts on us. Imagine that the car goes through the loop very very fast. Its tires will feel a great amount of normal force, if its velocity is quite high. By the same logic, if its velocity is too low, it might not feel a normal force at all, which means losing contact with the track.
The expression for the kinetic energy of the car at the top of the loop is K= mg(h-2R)
The minimum initial height h at which the car can be released that still allows the car to stay in contact with the track at the top of the loop is 5R/2
Calculation and Parameters:
Weight in the downwards direction
The normal force of the track to the car in the downwards direction
According to Newton's 2nd law
F=ma= mv^2/R
Where N=0
Therefore, v= √gR
Since we have the minimum velocity, we now have to find the minimum height and this would be with the use of energy conservation:
gh= g2R + 0.5gR
h= 2R + R/2
h= 5R/2
Read more about kinetic energy here:
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