The length of the seconds hand in a wall clock is 10cm. The magnitude of velocity and acceleration of its tip are
A
10−2m/s and 10−3m/s2
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B
10−2m/s and 10−4m/s2
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C
10−1m/s and 10−2m/s2
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D
10−2m/s and 10−2m/s2
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Solution
The correct option is A10−2m/s and 10−3m/s2 The seconds hand of a clock completes one revolution in 60s. Therefore, frequency f=160Hz
The angular velocity of the seconds hand is given by ω=2πf=2π60=π30rad/s
The tip of the seconds hand is at a distance r=10cm=0.1m from the axis of rotation. Thus, linear velocity of the tip is given by v=ωr=(π30)(0.1)≈0.01=10−2m/s
The direction of the velocity is tangential. The tip moves in a circle of radius r=0.1m with a constant speed v=10−2m/s .
Thus, tangential acceleration of the tip is zero and its radial (centripetal) acceleration is ac=v2r=(0.01)20.1=0.001=10−3m/s2
The direction of centripetal acceleration is radially inward.
Hence option A is the correct answer.