Please whats the true options of the tree parts of que The hanged ring is made up from Aluminum of a 2700 kg/m³ density. Determine the mass moment of inertia of the pendulumabout an axis perpendicular to the screen and passing through O.e1Given:• r₁ = 5 cm•T₂ = 20 cm• e₁ = 2 cmT₂GezActivate WindowsGo to Settings 10 activate Window Given:• r₁ = 5 cmT₂ = 20 cm• e₁ = 2 cm⚫e₂ = 1 cma = 7 cmOptions for part 1[ 8.17kg, 4.98kg, 9.23kg, 3.39kg]Option of part 2 [ 0.174kg.m2, 0.147kg.m2, 1.47kg.m2, 0.106kg.m2]option for part 3 [0.57kg.m2, 5.7kg.m2, 0.057kg.m2.,0.0057kg.m2]1. The mass of the composite body is Choose,2. The mass moment of inertia for the composite body about G isChoose...3. The mass moment of inertia for the composite body about O isChoose..

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Answered: The hanged ring is made up from…

International Edition---engineering Mechanics: Statics, 4th Edition

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter8: Centroids And Distributed Loads

Section: Chapter Questions

Problem 8.73P

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There is a pirate ship in the harbor which features a large, cast iron wheel that is used to steer the ship. As shown in the figure above, this wheel features spokes with a length of R = 0.83 meters, configured as shown. Star symbols indicate specific points on the wheel (labelled A, B, C, D, and E). The moment of inertia of this wheel is I = 12.2 kg⋅m2.The wheel spins around a gear mechanism attached at its center. The gear mechanism has sufficient resistance (due to friction and other factors) that anyone trying to turn the wheel feels a counter-torque of τres = 10 N⋅m. After the wheel begins moving, a constant resisting torque of τres = 10 N⋅m is still felt. Someone applies a a tourque of 33.7N*mvto the wheel for five seconds, if the wheel starts at rest what is it anuglar momentum after five seconds? If the wheel is now spinning at 1 rad/sec what is the magnitude of the tourque to keep it spinning? What is the total kinetic magnitude of the wheel ( the mass is 4kg)
STATICS OF RIGID BODIES PLEASE I NEED HELP ASAP. READ AND ANSWER THE QUESTION CORRECTLY. RATE WILL BE GIVEN. THANK YOU. EXACT ANSWER
Find the moments of inertia Ix ,Iy and Ixy ? Find the moment of inertia passing through the center of gravity ? Note: Show details calculations
Flywheel serves as a reservoir to store and restore energy by virtue of its inertia Select one: O True O False
Part A Consider the shaded area in (Figure 1). Determine the moment of inertia of the area about the x axis, if h = 5 in. Express your answer in inches to the fourth power to three significant figures. Figure 1 of 1 vec Ir = in4 Submit Request Answer ry= h-x² Provide Feedback Next >
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The material has a specific weight y = 70 lb/ft². (Figure 1) Figure 0.5 ft 0.25 ft/ 2 ft 1 ft 0.25 ft 1 of 1 Part A Determine the moment of inertia of the wheel about an axis which is perpendicular to the page and passes through point O. Express your answer to three significant figures and include the appropriate units. Io = Submit LO Value Request Answer Units < Return to Assignment Provide Feedback ?
Alert for not submit AI generated answer. I need unique and correct answer. Don't try to copy from anywhere. Do not give answer in image formet and hand writing
Tractor Tire Additional torque is required to accelerate the water filled tractor tires to 25 MPH. The tires are 6 feet in diameter and the center rim is 2 feet in diameter. The moment of inertia for the rubber tire is 15 lbs.ft.Sec². Water weighs 62.4 lbs/ft³. The rim weighs 120 lbs. A. Find Masses B. Find Omega C. Find Alpha D. Find Jm E. Find the torque to accelerate in 6 seconds
Please help me by solving it on paper. I don't want matlab script. Plz

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