PH 101 Tutorial- 6 Date: 15/09/2017
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1 PH 101 Tutorial 6 Date: 15/09/ A thin hoop of mass M and radius R rolls without slipping about the z axis. t is supported by an axle of length R through its center, as shown in Fig. 1. The hoop circles around the z axis with angular speed Ω. (a) What is the instantaneous angular velocity ω of the hoop? (b) What is the angular momentum L of the hoop? s L parallel to ω? (The moment of inertia of a hoop for an axis along its diameter is!! MR2 ) Fig A gyroscope wheel is at one end of an axle of length A. The other end of the axle is suspended from a string of length B. The wheel is set into motion so that it executes uniform precession in the horizontal plane. The wheel has mass M and moment of inertia about its center of mass 0. ts spin angular velocity is ωs. Neglect the masses of the shaft and string. Find the angle β that the string makes with the vertical. Assume that β is so small that approximations like sin β β are justified. (Refer to Fig. 2) Fig A coin of radius b and mass M rolls on a horizontal surface at speed V. f the plane of the coin is vertical the coin rolls in a straight line. f the plane is tilted, the path of the coin is a circle of radius R. Find an expression for the tilt angle of the coin α in terms of the given quantities. (Because of the tilt of the coin the circle traced by its center of mass is slightly smaller than R but you can ignore the difference.) Fig As a bicycle changes direction, the rider leans inward creating a horizontal torque on the bike. Part of the torque is responsible for the change in direction of the spin angular momentum of the wheels. Consider a bicycle and rider system of total mass M with wheels of mass m and radius b, rounding a curve of radius R at speed V. The center of mass of the system is 1.5b from the ground. (a) Find an expression for the tilt angle α. (b) Find the value of α, in degrees, if M = 70 kg, m = 2.5 kg, V = 30 km/hour and R = 30 m. (c) What would be the percentage change in α if spin angular momentum were neglected? 1
2 PH 101 Tutorial 6 Date: 15/09/ A particle of mass m is located at x = 2, y = 0, z = 3. (a) Find its moments and products of inertia relative to the origin. (b) The particle undergoes pure rotation about the z axis through a small angle α. Show that its moments and products of inertia are unchanged to first order in α if α 1. (Refer to Fig. 4) Fig Find the principal moments of inertia of a uniform circular disk of mass M and radius a (i) at its centre of mass, and (ii) at a point on the edge of the disk. (Refer to Fig. 5) Fig Find the principal moments of inertia of a uniform cube of mass M and side 2a (i) at its centre of mass and (ii) at the centre of a face 2
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