w The 5.32 kg AB bar is attached to the A collar of negligible mass and...
The 4.80kg bar AB is attached to the negligible mass collar A
and a 15.98kg mass wheel with a turning radius of 0.17mm. If the
angular speed of the wheel is 58rpm clockwise in the displayed
position, determine the wheel speed in rpm when point B is located
just below C. The angle of the bar with respect to Y it is 19.47
°.
A 720 mm B 240 mm
NO QUESTIONS DURING THE EXAM! e collar of negligible size has a mass of 0.25 kg and is attached to a spring having an unstretched and travels along (25 points) Th 9) length of 100 mm and an elastic constant of k 150 N/m. If the collar is released from rest at a the smooth guide as shown in the figure, determine its speed just before it strikes B Take g 10 m/s? 400 mm 200 mm
NO QUESTIONS DURING...
1. The ends of a uniform bar AB with length l= 36.0 in and weight W = 30.0 lb are attached to collars of negligible weight that slide without friction along fixed bars. A vertical force P is applied to collar B. The bar is initially at rest in the position shown and the initial angular acceleration of A is 40.0 ft/s to the left, aA = – 40 ft/s i. o= 30° {= 36 in O Draw a free...
The
disc, with r=72 mm and mass =2.1 kg, turns without slipping with
respect to the fixed ring at point C and is attached to the thin
bar AB, lenghth=157 mm and mass=1.5 kg, at point B. If the turning
radius of the disc is 67 mm and the system starts from rest at an
angle θ = 74°, find the angular velocity for the bar AB when the
angle θ = 10°.
We
need to use the approach of...
Gear Chas a mass of 13 kg and a centroidal radius of gyration of 75 mm. The uniform bar AB has a mass of 3 kg and gear D is stationary. The system is released from rest in the position shown 200 mm 100 mm eBook & Resources olue: 0.00 points Determine the angular acceleration of gear C. Round the final answer to one decimal place.) (You must provide an answer before moving to the next part) The angular acceleration...
The disc, with a radius of 72 mm and a mass of 2.1 Kg, rotates
without sliding with respect to the fixed ring at point C and is
attached to the thin bar AB, a length of 157 mm and a mass of 1.5
Kg, at point B. If the radius of gyration of the disk is 67 mm and
the system starts from rest at an angle θ = 74°, find the angular
velocity of the bar AB when...
2.- The disc, with a radius of 72 mm and a mass of 2.1 kg, rotates without sliding with respect to the fixed ring at point C and is attached to the thin bar AB, a length of 157 mm and a mass of 1.5 kg, at point B. Si the radius of gyration of the disk is 67 mm and the system starts from rest at an angle 0 = 74°, finds the angular velocity of the bar AB...
2.- The disc, with a radius of 72 mm and a mass of 2.1 kg, rotates without sliding with respect to the fixed ring at point C and is attached to the thin bar AB, a length of 157 mm and a mass of 1.5 kg, at point B. Si the radius of gyration of the disk is 67 mm and the system starts from rest at an angle 0 = 74 °, finds the angular velocity of the bar...
The wheel consists of a 2.6-kg rim of 420-mm radius with hub and
spokes of negligible mass. The wheel is mounted on the 3.7-kg yoke
OA with mass center at G and with a radius of
gyration about O of 495 mm. If the assembly is released
from rest in the horizontal position shown and if the wheel rolls
on the circular surface without slipping, compute the velocity of
point A when it reaches A'.
Answer: vA =
m/s
420...
An m = 13.6 kg mass is attached to a cord
that is wrapped around a wheel of radius r = 11.3 cm (see the
figure below).
The acceleration of the mass down the frictionless incline is
measured to be a = 1.98 m/s2. Assuming the axle of the
wheel to be frictionless, and the angle to be theta=
33.0o determine the tension in the rope.
Determine the moment of inertia of the wheel.
Determine angular speed of the wheel...