Answer 48.19°
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The wheel has a weight of 32 lb and a radius of gyration kg =0.7ft. Figure...
The wheel has a weight of 32 lb and a radius of gyration kg =0.7ft. Figure 1 of 1 1.25 ft Part A If the coefficients of static and kinetic friction between the wheel and the plane are ,-0.2 and 0.15, determine the maximum angle of the inclined plane so that the wheel rolls without slipping (Figure 1) Express your answer with the appropriate units. HA ? o Value Submit Previous Answers Request Answer X Incorrect; Try Again; 3 attempts...
- Review The wheel has a weight of 25 lb and a radius of gyration ko = 0.7ft. Part A If the coefficients of static and kinetic friction between the wheel and the plane are lis = 0.2 and x = 0.15, determine the maximum angle of the inclined plane so that the wheel rolls without slipping. (Figure 1) Express your answer with the appropriate units. !! HA 0 Figure < 1 of 1 > Ω % A o 8...
4. The tire has a weight of 30 lb and a radius of 1.25 ft. If the coefficient of static friction between the tire and the plane is us = 0.2, find the maximum angle of the inclined plane so that the tire rolls without slipping. You may treat the tire as a thin circular disk. 1.25 ft
answer fast please The reel has a weight of 156 lb and a radius of gyration about its center of gravity of kg = 1.25 ft. (Figure 1) Figure 1 of 1 1 ft 1.5 ft M = 25 lb . ft A Part A If it is subjected to a torque of M = 25 lb. ft, and starts from rest when the torque is applied, determine its angular velocity in 3 seconds. The coefficient of kinetic friction between...
M Review The reel has a weight of 168 lb and a radius of gyration about its center of gravity of kc = 1.25 ft. (Figure 1) Part A If it is subjected to a torque of M = 25 lb. ft. and starts from rest when the torque is applied, determine its angular velocity in 3 seconds. The coefficient of kinetic friction between the reel and the horizontal plane is = 0.15 Express your answer to three significant figures...
The center of the 148-lb wheel with centroidal radius of gyration of 3.8 in. has a velocity of 3.8 ft/sec down the incline in the position shown. Calculate the normal reaction N under the wheel as it rolls past position A. Assume that no slipping occurs. Chapter 6, Reserve Problem 6/070 X Incorrect The center of the 148-lb wheel with centroidal radius of gyration of 3.8 in. has a velocity of 3.8 ft/sec down the incline in the position shown....
The center of the 225-lb wheel with centroidal radius of gyration of 3.7 in. has a velocity of 3.2 ft/sec down the incline in the position shown. Calculate the normal reaction N under the wheel as it rolls past position A. Assume that no slipping occurs. 27 30 11 Answer: N IH
Chapter 6, Reserve Problem 6/070 The center of the 181-lb wheel with centroidal radius of gyration of 5.3 in. has a velocity of 2.3 ft/sec down the incline in the position shown. Calculate the normal reaction N under the wheel as it rolls past position A. Assume that no slipping occurs. 34 30" 15" Answer: N = lb
The 200-lb wheel has a radius of gyration ofkG = 0.75 ft. The upper wire is subjected to a tension of T = 60 lb . The coefficient of kinetic friction between the wheel and the surface is?k = 0.1. Determine the speed of the center of the wheel in 3 s , starting from rest. Vg= _______ Thank You!
k 10 lb/ft The disk weighs 40 lb and has a radius of gyration of 0.6 ft. A 15 ftlb moment is applied and the spring has a spring constant of 10 lb/ft. The wheel starts from rest and rolls without slipping. The spring is not initially stretched. Find the angular velocity of the wheel when point G moves 0.5 ft. 0.8 ft 15 lb ft