MA Arigid body consists of the bou AB, the bou of and the uniform circular disc....
Question 1. A uniform circular disc of mass m and radius r is pivoted at point 0, as shown in Figure 1. The disc is released from the position shown. Immediately after the release: (a) Obtain the angular acceleration of the disc in terms of r,1,g, and 0. [5 marks) [8 marks) Assuming r = 0.5 m and @ = 30° and using plot function in MATLAB: (b) Determine how the initial angular acceleration changes as I is varried from...
A circuit consists of a circular loop of wire with a radius a = 35.5 x 102 m. The circuit has a resistor with a resistance R = 1.8 as shown below. The circuit is entirely immersed a uniform magnetic field whose magnitude changes over time. If the rate of change of the magnetic field is either decreasing (-) or increasing (+) with a AB = -9.6 T/s, Ri X At Buto la page X X X X X X...
An L-shaped rigid body ABC consists
of two identical uniform slender rods, each of mass 40
kg and of length, L= 1.6
m welded together. The rigid body is pinned at its
vertex B as shown, with the
end C attached to a spring with a spring
constant, 6 N/cm .
PART A - Determine the natural cycle frequency of the
system.
PART B - If during the oscillatory motion the
end A is observed to move with a speed of 0.12
m/s when AB is vertical,
what...
A circular shaft AB consists of a 10-in.-long, 7/8-in-diameter steel cylinder (G=11.2x106 psi), in which a 5-in.-long, 5/8-in.-diameter cavity has been drilled from end B. The shaft is attached to fixed supports at both ends, and a 90 lb-ft torque is applied at its midsection (see Figure). Determine: 1. The reaction at each support. 2. The maximum shearing stress in shaft AB. 3. The maximum shearing stress in shaft BC. 5 in. 5 in. A с 90 lb. ft B
Problem 3. A table consists of a horizontal thin uniform circular disk of radius R and mass M, supported on its rim by three thin vertical legs that equidistant from each other. The are acceleration due to gravity is g. suddenly removed. Find the force exerted by the third leg on (a) Suppose two of the legs are the table top immediately after. [20 points] (b) Suppose instead that just one of the legs is suddenly removed. Find the force...
A compound pendulum is assembled as follows A mass of 2 kg, having moment oj nerta of O, 1 kg. ma about its own centre of gravity, is attached to o slender rod of mass 2k, 2 m long. One end of tha rod is attached to the pivot point,R about which the pendulum swings. The centres of gravity of the mass and the rod are eguidistant from the pivot. A thin uniform disc mass 15kg and diometer 200 mm...
The pendulum consists of two slender rods AB and OC which have a mass of 6 kg/m . The thin circular plate has a mass of 15 kg/m2 (Figure 1) ure < 1 of 1 -0.4 m-.4 m- Part A Determine the location of the center of mass G of the pendulum. Express your answer to three significant figures and include the appropriate units. Value Units Submit Request Answer Part B Then calculate the moment of inertia of the pendulum...
Please solve all parts.
#3. A uniform rod B of mass mg is placed inside tube A of mass mA. Both bodies are slender rods, homogeneous, and of length L. Initially B is held inside A by a lightweight cap (not shown) that covers the end of tube A while the assembly is spinning freely with the angular velocity wi about the z-axis. The cap then falls off, allowing the rod to slide out of the tube. If Tube B...
problem e please
2. The amusement park ride consists of a 200-kg car and passenger that are traveling at 3 m/s along a circular path having a radius of 8 m (horizontal plane) If at t 0, the cable OA is pulled in toward O at 0.5 m/s, determine: a. Is energy conserved? why? (5%). b. Is angular momentum about point O conserved? why? (596). C. The speed of the car when t-4 s (10%). d. work done to pull...
3- (SKMMIH3/SME2113) from plastic having modulus of elasticity, E-4.0GPa a) Bar ABCD shown in Figure Q3a is made The bar consists of three segments, AB, BC, and CD. Segment AB is hollow and segments BC and CD are solids If the shortening (contraction) of bar ABCD is limited to 4.0 mm, determine the maximum allowable force P to be applied at C. (8 marks) 90 mm ΟΙ 00 mm 1080 min PL 500 mm 250 mm 250 mm Figure Q3a...