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Suppose you are driving a car around in a circle of radius 212 ft, at a velocity which has the constant magnitude of 43 ft/s. A string hangs from the ceiling of the car with a mass of 1.8 kg suspended
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Suppose you are driving a car around in a circle of radius 212 ft, at a velocity which has the constant magnitude of 43 ft/s. A string hangs from the ceiling of the car with a mass of 1.8 kg suspended from it. What angle (in degrees) will the string make with the vertical

User Supun Sameera
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To solve this problem we will apply the concepts related to dynamic equilibrium. The vertical component of the tension is equivalent to the centripetal Force while the horizontal component of the tension is equivalent to the weight, therefore we will have the two equations,


Tsin\alpha = (mv^2)/(r)


Tcos\alpha = mg

Our values are,


v = 43ft/s = 13.11m/s


r = 212ft = 64.62m

Therefore if we divide both equation we have,


tan \alpha = (v^2)/(rg)

Replacing,


tan\alpha = (13.11^2)/((64.62)(9.8))


tan\alpha = 0.2714


\alpha = tan^(-1) (0.2714)


\alpha = 15.18\°

Therefore the angle required is 15.18°

User Tuan Hoang Anh
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