![. [18 pts] A uniform long slender bar of mass m 6.8 kg and length0.9 m is attached at one of its ends (A) to a horizontal rop](http://img.homeworklib.com/questions/a8660da0-968e-11eb-a72f-af17191151da.png?x-oss-process=image/resize,w_560)
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. [18 pts] A uniform long slender bar of mass m 6.8...
A uniform slender bar AB of mass m has two light pegs A and B which...
A uniform slender bar AB of mass m has two light pegs A and B
which are constrained to move in the frictionless circular slot
with center O in the vertical plane. At the position depicted, the
bar is released from rest. Find the bar's initial angular
acceleration when the bar is released in terms of appropriate given
quantities. The pegs each contact only one side of the slot at a
given time.
11.6) A slender bar, 3, with a uniformly distributed mass m is attached at each end...
11.6) A slender bar, 3, with a uniformly distributed mass m is attached at each end to light rollers which move in a smooth fixed guide, 1, shaped as shown in the figure. Assuming gravity acts vertically downward and the bar is released from rest in the configuration shown, what is the angular acceleration of the bar and the force at each roller at the instant the bar is released? For numerical values, use m = 18 kg and r...
A rigid bar in the shape of a T has a mass of 10 kg. The T-shaped body of mass m is composed of two identical slender b...
A rigid bar in the shape of a T has a mass of 10 kg. The T-shaped body of mass m is composed of two identical slender bars welded together. End A is constrained to move in the slotted frictionless groove guided by the light frictionless roller as shown in Figure 3. The lower end of the T is released from rest in the vertical plane in the position shown, and the dimension /= 1 m. (i) Determine the location...
The 600 mm long homogeneous slender bar OA has a mass of 8 kg and is supported in the horizontal position by the cable at A and the corner hinge at O
The 600 mm long homogeneous slender bar OA has a mass of 8 kg and is supported in the horizontal position by the cable at A and the corner hinge at O. The cable at A is suddenly released. Just before hitting the incline, the bar has an angular velocity of ω= 5 rad / sec. Calculate the angle θ. Neglect the curvature of the path of the bar mass center when the bar is falling and assume that the...
I need help. Please show steps! The uniform 80-kg slender bar is initially at rest on...
I need help. Please show steps!
The uniform 80-kg slender bar is initially at rest on a smooth horizontal plane when the forces are applied. (Figure 1) Part A Determine the acceleration of the bar's mass center at this instant. Express your answer to three significant figures and include the appropriate units. μΑ ? ag = Value Units Figure < 1 of 1 > Submit Request Answer Part B 20 N 0.75 m 0.5 m -1.75 m Determine the angular...
The spring is uncompressed when the uniform slender bar is in the vertical position shown. Determine...
The spring is uncompressed when the uniform slender bar is in the vertical position shown. Determine the initial angular acceleration a of the bar when it is released from rest in a position where the bar has been rotated clockwise 33° from the position shown. Neglect any sag of the spring, whose mass is negligible. The angular acceleration is positive if counterclockwise and negative if clockwise. The mass m of the bar is 18 kg, the length / is 305...
Chapter 6, Problem 6/098 The assembly consisting of a uniform slender bar (mass 2.1 kg and...
Chapter 6, Problem 6/098 The assembly consisting of a uniform slender bar (mass 2.1 kg and L0.45 m) and a rigidly attached uniform disk (mass 6.1 kg) is freely pinned to point O on the collar that in turn slides on the fixed horizontal guide. The assembly is at rest when the collar is given a sudden acceleration a 4.6 m/s2 to the left as shown. Determine the initial angular acceleration a of the assembly. The angular acceleration is positive...
Prob. 3 A slender uniform homogeneous bar of total mass 2 kg is used to stiffen...
Prob. 3 A slender uniform homogeneous bar of total mass 2 kg is used to stiffen the 4 kg rectangular plate, as shown, along all its four sides. Determine a) The total length of the bar b) The total mass of the assembly c) Its center of mass location, G. d) determine the moment of inertia e) and radius of gyration about G. 300mm A 300mm + 400mm Prob. 4 The stiffened plate described in Prob 3 above, and supported...
EXAMPLE 4.29 The slender bar, pinned smoothly at O, is released from rest in the position...
EXAMPLE 4.29 The slender bar, pinned smoothly at O, is released from rest in the position showr in Figure E4.29a. After a rotation of 45°, its angular speed is (3g)/(2/). Find at that instant the axial force, shear force, and bending moment in the bar at point A, which is one-fourth the length of the bar from its free end. m, t Figure E429a
The Uniform bar AB of mass M is released from rest at θ=30º, with an angular acceleration at -20 rad / s2 The bars that...
The
Uniform bar AB of mass M is released from rest at θ=30º, with an
angular acceleration at -20 rad / s2 The bars that support it and
the rollers are of negligible mass. Find the moment applied in O.
Consider that there is no friction. Can you calculate the reactions
in O? give an explanation.
45
45
A uniform slender bar AB of mass m has two light pegs A and B
which are constrained to move in the frictionless circular slot
with center O in the vertical plane. At the position depicted, the
bar is released from rest. Find the bar's initial angular
acceleration when the bar is released in terms of appropriate given
quantities. The pegs each contact only one side of the slot at a
given time.
11.6) A slender bar, 3, with a uniformly distributed mass m is attached at each end to light rollers which move in a smooth fixed guide, 1, shaped as shown in the figure. Assuming gravity acts vertically downward and the bar is released from rest in the configuration shown, what is the angular acceleration of the bar and the force at each roller at the instant the bar is released? For numerical values, use m = 18 kg and r...
A rigid bar in the shape of a T has a mass of 10 kg. The T-shaped body of mass m is composed of two identical slender bars welded together. End A is constrained to move in the slotted frictionless groove guided by the light frictionless roller as shown in Figure 3. The lower end of the T is released from rest in the vertical plane in the position shown, and the dimension /= 1 m. (i) Determine the location...
I need help. Please show steps!
The uniform 80-kg slender bar is initially at rest on a smooth horizontal plane when the forces are applied. (Figure 1) Part A Determine the acceleration of the bar's mass center at this instant. Express your answer to three significant figures and include the appropriate units. μΑ ? ag = Value Units Figure < 1 of 1 > Submit Request Answer Part B 20 N 0.75 m 0.5 m -1.75 m Determine the angular...
The spring is uncompressed when the uniform slender bar is in the vertical position shown. Determine the initial angular acceleration a of the bar when it is released from rest in a position where the bar has been rotated clockwise 33° from the position shown. Neglect any sag of the spring, whose mass is negligible. The angular acceleration is positive if counterclockwise and negative if clockwise. The mass m of the bar is 18 kg, the length / is 305...
Chapter 6, Problem 6/098 The assembly consisting of a uniform slender bar (mass 2.1 kg and L0.45 m) and a rigidly attached uniform disk (mass 6.1 kg) is freely pinned to point O on the collar that in turn slides on the fixed horizontal guide. The assembly is at rest when the collar is given a sudden acceleration a 4.6 m/s2 to the left as shown. Determine the initial angular acceleration a of the assembly. The angular acceleration is positive...
Prob. 3 A slender uniform homogeneous bar of total mass 2 kg is used to stiffen the 4 kg rectangular plate, as shown, along all its four sides. Determine a) The total length of the bar b) The total mass of the assembly c) Its center of mass location, G. d) determine the moment of inertia e) and radius of gyration about G. 300mm A 300mm + 400mm Prob. 4 The stiffened plate described in Prob 3 above, and supported...
EXAMPLE 4.29 The slender bar, pinned smoothly at O, is released from rest in the position showr in Figure E4.29a. After a rotation of 45°, its angular speed is (3g)/(2/). Find at that instant the axial force, shear force, and bending moment in the bar at point A, which is one-fourth the length of the bar from its free end. m, t Figure E429a
The
Uniform bar AB of mass M is released from rest at θ=30º, with an
angular acceleration at -20 rad / s2 The bars that support it and
the rollers are of negligible mass. Find the moment applied in O.
Consider that there is no friction. Can you calculate the reactions
in O? give an explanation.
45
45
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